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Home My WebLink About24007_Wrights Executive Sales II_VIMS System Effectiveness Workplan Rev 1_20240103E5ECS SOUTHEAST, LLC NC Engineering License No. F-1519 Geotechnical • Construction Materials • Environmental • Facilities January 3, 2024 Ms. Lauren Fleming North Carolina Department of Environmental Quality Division of Waste Management Brownfields Redevelopment Section 1646 Mail Service Center Raleigh, North Carolina 27699-1646 Reference: VIMS System Effectiveness Testing Work Plan — Revision 1.0 Wright's Executive Sales II 721 and 723 Rigsbee Avenue; 620 and 616 Foster Street Durham, Durham County, North Carolina Brownfields Project No. 24007-20-032 ECS Project No. 49:10039-B Ms. Fleming, ECS Southeast, LLC (ECS) has prepared this revised work plan to perform VIMS System Effectiveness testing as it relates to the installed vapor intrusion mitigation system at the above referenced site. This plan has been developed at the request of the North Carolina Department of Environmental Quality (NCDEQ) Division of Waste Management (DWM) Brownfields Program (the Program). ECS appreciates the opportunity to work with the Program. If there are questions regarding this report, or a need for further information, please contact us. Respectfully submitted, ECS SOUTHEAST, LLP _ Ron M. Navarro, P.G. Staff Project Manager rnavarro@ecslimited.com Scott M. Werley, P.G. Environmental Principal swerlev@ecslimited.com 5260 GREENS DAIRY ROAD, RALEIGH, NC 27616 • T: 919-861-9910 • F: 919-861-9911 ECS Florida, LLC - ECS Mid -Atlantic, LLC • ECS Midwest, LLC • ECS Pacific, Inc. • ECS Southeast, LLC • ECS Southwest, LLP ECS New York Engineering, PLLC - An Associate of ECS Group of Companies • www.ecslimited.com "ONE FIRM. ONE MISSION." VIMS SYSTEM EFFECTIVENESS TESTING WORKPLAN — REVISION 1.0 WRIGHT'S EXECUTIVE SALES II 721 AND 723 RIGSBEE AVENUE; 620 AND 616 FOSTER STREET DURHAM, DURHAM COUNTY, NORTH CAROLINA BROWNFIELDS PROJECT NO. 24007-20-032 ECS SOUTHEAST, LLP PROJECT 49:10039-B PREPARED FOR: GEERHOUSE OWNER, LLC January 3, 2024 Work Plan Certification I, Scott Werley, P.G., a Licensed GegRlo.;ist for ECS Southeast, LLP (NC Registered Geologist Firm C-553), do certify that the informatiorl,�➢ai�,red'%ig'f is correct and accurate to the best of my knowledge. t +} tf-Z \T Scott WerleOP.G. r�3 NC License No. 2354 Developer Geerhouse Ow1Ner, `t , o l John Sunter johnsunter@gmail.com (301) 367-0506 Consultant ECS Southeast, LLP Scott M. Werley swerley@ecslimited.com (984) 297-7285 Project Manager NC Brownfields Program Holly Samaha- Smith holly.samaha@deq.nc.gov (919) 707-8238 Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 TABLE OF CONTENTS 1.0 INTRODUCTION.......................................................................................................................................1 1.1 History..............................................................................................................................................1 1.2 Redevelopment Plans.......................................................................................................................2 2.0 SCOPE OF WORK.....................................................................................................................................2 2.1 PFE Testing........................................................................................................................................ 2 2.2 Sub -Slab Soil Gas Sample Collection.................................................................................................2 2.3 Indoor Air Sampling..........................................................................................................................3 2.4 Deviation from Approved Plan...................................................................................................................3 3.0 SAMPLING METHODOLOGY....................................................................................................................3 3.1 Permanent Pressure Point Installation.............................................................................................3 3.2 PFE Testing........................................................................................................................................3 3.3 Sub -Slab Soil Gas Sample Collection.................................................................................................3 3.4 Shut -In and Leak Check Tests..........................................................................................................4 3.5 Indoor Air Sample Collection......................................................................................................................4 4.0 LABORATORY ANALYSIS..........................................................................................................................4 5.0 QUALITY ASSURANCE/QUALITY CONTROL..............................................................................................5 6.0 INVESTIGATION DERIVED WASTE MANAGEMENT..................................................................................5 7.0 REPORTING.............................................................................................................................................5 FIGURES Figure 1 Site Topographic Map Figure 2 Brownfields Parcel Location Map Figure 3 Baseline Study Sample Location Map Figure 4 PFE Testing and Sample Location Map TABLES Table 1 Property Summary Table 2 Proposed Samples and Analysis APPENDICES Appendix A Wright's Executive Sales - VIMS Design Appendix B Brownfields Program Guidance — Vapor Intrusion Assessment Work Plan & Report Checklist (July 2021) I7 Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 1.0 INTRODUCTION The subject site is located in Durham, Durham County, North Carolina. The site is currently in the North Carolina Brownfields Redevelopment Section (BRS) and is identified as Brownfields Project Number 24007-20-032. The subject site formerly consisted of five parcels that have later been consolidated into two parcels identified as Durham County Parcel Identification Numbers (PINS) 0822903182 and 082199297413. The site consists of approximately 2.37 acres of land (Figures 1 and 2). Based on the results of environmental assessment activities conducted in October and November 2020 (as described in Section 1.1), the BRS determined that a limited vapor intrusion mitigation system (VIMS) would be required for the proposed building on site. The VIMS design was approved by BRS on November 30, 2022, and the under -slab portion was installed as designed. This Work Plan relates to post - construction pressure field extension (PFE) testing, sub -slab soil gas sampling, and indoor air sampling for the installed VIMS. A copy of the VIMS Design is included in Appendix A. 1.1 History The northeastern portion of the site was originally developed with a commercial building in 1937 for the Moss Bread Company. Records indicate that two underground storage tanks (USTs) were located on the south side of the building for fueling delivery vehicles and below -grade hydraulic lifts were located on the eastern side of the building. The property was then developed and operated as a Lincoln/Mercury Auto Dealership in the 1950s which included a showroom along West Geer Street, automotive repair bays along Rigsbee Avenue, and a wash bay, body shop, spray booth, and greasing bay on the western portion of the property. The western portion of the site was owned by Acme Properties of Durham, LLC. This portion of the site was historically occupied by Uzzle Motor Co, Bobby Insco Realty, and Wings of Eagles Church. Automotive repair activities occurred on this portion of the property and the property was used as a used car lot and developed with a building for office space. A UST was associated with these operations. Soil, groundwater, and soil gas sampling activities were conducted at the site in October and November 2020. The results of the sampling activities identified volatile organic compounds (VOCs) in excess of Residential and Non-residential Vapor Intrusion Screening Levels (VISLs) in exterior and sub -slab soil gas within the footprint of the existing and proposed building footprints. Specifically, following are the results of the soil gas sampling: • Benzene and chloroform were detected at concentrations exceeding their respective Residential VISLs and 1,3-butadiene at a concentration exceeding its Residential and Non -Residential VISLs in exterior soil gas sample SG-1, collected at the location of the proposed northern stairwell and elevator. • Benzene was detected at a concentration exceeding its Residential VISL in exterior soil gas sample SG2, collected at the location of the proposed eastern stairwell. Chloroform, ethylbenzene, 1,2,4-trimethylbenzene, 1,3,5-trimethylbenzene, and m&p xylenes were detected at concentrations exceeding their respective Residential VISLs in sub -slab soil gas sample SG-8, collected within the building in the northeast corner of the project footprint. Benzene was detected at a concentration exceeding its Residential VISL in sub -slab soil gas sample SG-9, collected within the building in the northeast corner of the project footprint. Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 The approximate sample locations for the collected sub -slab and exterior soil gas indicating VISL exceedances in the October/November 2020 assessment are illustrated in Figure 3. 1.2 Redevelopment Plans The planned redevelopment of Phase 1 of the subject site will consist of approximately 203,000 square feet of multifamily space, 13,000 square feet of retail and/or restaurant space, 6,600 square feet of the existing Motorco building, and 90,000 square feet of structured parking space. There will be approximately 220 apartment units in total. Future planned redevelopment of the subject site will occur in multiple phases. Phase 1 is currently under construction and includes building infrastructure and streetscape improvements on the northern portion of the site (620 Foster Street and 721 Rigsbee Avenue) including a new mid -rise mixed -use building with residential, retail, restaurant(s), and parking. Phase 1 will also include a community corridor plaza, decks, ramps, paving on the north side of the corridor, and terrace and streetscape improvements at the existing Motorco building. Phase 2 includes building, infrastructure, and streetscape improvements to the southern portion of the property (616 and 620 Foster Street) including a new high-rise mixed -use building with residential, retail, restaurant(s), and parking. Phase 2 will also include paving on the south side of the community corridor and a bridge over the community corridor which will connect the two mixed -use buildings. This Work Plan for the post-construction/pre-occupancy PFE testing and sub -slab soil gas sampling is required to be approved by the NCDEQ BRS Project Manager prior to its implementation. The data collected during this assessment is intended for use only by the NCDEQ Brownfields Program and not by other NCDEQ programs. 2.0 SCOPE OF WORK The proposed assessment activities will evaluate the system effectiveness of the installed VIMS vent piping system, as well as augment the prior sampling from October and November 2020 to determine whether the constituents detected above VISLs may have migrated beneath the footprint of the new building on site. The findings from this testing will define whether data gaps remain regarding indoor air risks from these potential site contaminants. ECS will evaluate identified data gaps further during pre- occupancy testing to be conducted later, if necessary (under a separately approved Work Plan). 2.1 PFE Testing ECS will obtain sub -slab depressurization measurements from fourteen (14) sample points using one rated blower at the vertical riser location as illustrated on Figure 4. The measurements will be collected during moderate weather using a handheld micromanometer capable of collecting measurements to the nearest 0.001 inches of water (in-HZO). 2.2 Sub -Slab Soil Gas Sample Collection Following completion of the pilot testing, ECS will collect fourteen (14) sub -slab soil gas samples (plus one duplicate) from the approximate locations illustrated on Figure 4 using Individually Certified Summa canisters. Each sample will be analyzed for the full -list of VOCs by EPA Method TO-15 including naphthalene. 2.3 Indoor Air Sampling ECS proposes to collect three (3) indoor air samples, as shown on Figure 4. In addition, ECS will collect one "ambient" air sample for quality assurance/quality control purposes. The location of the exterior 2 Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 "ambient" air sample will be determined during field activities. Each sample will be analyzed for the full - list of VOCs by EPA Method TO-15 including naphthalene. 2.4 Deviation from Approved Plan This Work Plan is intended to be dynamic and to be adapted to specific and actual site conditions. Accordingly, should such conditions warrant a change either by addition, deletion or modification of a procedure, such may be accomplished with agreement between Geerhouse Owner, LLC representative and ECS after consultation with, and subject to approval by the NCDEQ Brownfields BRS. Such changes will comply with applicable local, State and Federal rules and regulations. 3.0 SAMPLING METHODOLOGY 3.1 Pressure Point Installation In order to perform PFE testing and sub -slab soil -gas sampling, fourteen (14) permanent pressure monitoring points will be installed throughout the area of the VIMS network (Figure 4). VaporPins° will be installed by drilling a 5/8" hole in the newly poured floor slab at each location. The monitoring points will be in suspect VI locations but greater than five feet from exterior walls or cracks/penetrations. The monitoring points will be installed using a hammer drill equipped with an 18-inch drill bit to penetrate the slab and moisture barrier, if present. Dust will be collected with a shop vacuum from each boring. A VaporPin° fitted with a silicone sleeve will be installed using a rubber mallet and a special installation & extraction tool that fits over the VaporPins®. Each VaporPin° will be topped with a protected cap and allowed to equilibrate for a minimum of 20 minutes, per Guidance. The locations of pressure monitoring points will include, but are not limited to, the remote extents of the system, in areas near the horizontal piping, areas of potential reduced effectiveness based on plumbing piping, and other utilities and/or wall layouts. The proposed locations for this phase of work are shown on Figure 4. 3.2 PFE Testing PFE testing will comprise of using a rated blower to apply a vacuum at the vertical riser location of the VIMS while measuring the sub -slab depressurization at each permanent pressure point. The measurements from a handheld micromanometer will be collected. The goal of the passive system is to create a minimum differential pressure of 0.016 in-H20 or 4 pascals (Pa) across the slab. The PFE testing activities and findings will be documented, and modifications will be made if the testing indicates additional monitoring or vacuum points are needed to achieve influence across the targeted area. 3.3 Sub -Slab Soil Gas Sample Collection Following PFE testing, sub -slab soil gas samples will be collected from each of the fourteen (14) previously installed pressure monitoring points (Figure 4). The soil gas samples will be collected using %" Teflon tubing and individually certified 1.4-L Summa canisters per the laboratory protocol using quick connect or Swagelok fittings, as appropriate. Small 1- to 2-inch pieces of 1/4" and 3/8" Tygon or silicone tubing will be employed to make connections to various 3-way valves and fittings of the sampling trains. The individual canisters will be fitted with flow regulators that will result in a 10-min sample time (100 mL/min). The duplicate sample will be collected using a stainless -steel tee and a single flow regulator that has been calibrated to approximately 200mL/min to achieve a 10-min sample time across two canisters. New tubing and supplies will be used for each sampling train, canister connection, etc. 3 Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 3.4 Shut-in and Leak Check Tests The probe tubing will be connected to the sampling train and a shut-in test will be performed to ensure connections exhibit airtight conditions over a period of 2 to 3 minutes. A shroud will then be placed over the probe and sampling train. Subsequently, helium will be introduced into the shroud to a concentration of 20% or greater, which will be documented. (The helium monitor probe will be inserted into the side of the shroud via a 0.25" diameter hole near ground/probe level.) The probe tubing will then be purged of a minimum of three dead volumes using a 60-mL syringe. Assuming 1.5 feet of 1/4-inch tubing (inner diameter of 0.177 inches), three dead volumes equal 22 mL. The annulus of a 1-foot deep 5/8-inch hole is 0.31 cubic inches (three dead volumes equals —15 mL). Note — the contents of 1 to 2 syringes (up to 120 mL) will be transferred to a 0.5-L Tedlar bag equipped with a bulkhead fitting to allow for sufficient volume for the meter to perform the leak test. Each syringe purge will be collected over approximately 20 seconds, which is within the 200 mL/min maximum per the checklist. After purging, the Tedlar bag will be removed from the sampling train, and its contents monitored for helium levels using a portable MGD-2002 Helium Leak Detector, or equivalent. A successful leak test is deemed when the purged soil gas contains less than 10% in the purged soil gas, adjustments will be made to sampling train connections to achieve leak -free conditions, and/or a new VaporPin° location will be installed and tested. Upon evidence of successful leak tests at the probe and the sampling train, the sample of soil gas can be collected into a 1.4-L stainless steel Individually Certified Summa canister at each location. The Individually Certified Summa canisters will be submitted to a National Environmental Laboratory Accredited (NELAC) laboratory for analyses of volatile organic compounds (VOCs) by EPA Method TO-15. It will be confirmed that the chosen laboratory reporting limits will meet the latest Residential Indoor and Sub -Slab Soil Gas Screening Levels when 6-L and 1.4-L Summas are used, to the extent feasible. ECS anticipates using Eurofins Environmental Testing (Eurofins) for laboratory services. A summary of the proposed samples and analysis are provided in Table 2. 3.51ndoor Air Sample Collection Before each sample collection event/mobilization, ECS will complete a NCDEQ, -DWM Indoor Air Building Survey and Sampling Form. It is proposed to delay Indoor Air Quality (IAQ) sampling events until the HVAC system of the building is complete. ECS will use Individually Certified 6-liter Summa canister with a flow restrictor provided and calibrated by the lab such that samples are collected over a 24-hour period. ECS will attempt to collect the samples on a day when traffic in and out of the building is expected to be minimized. Custody seals and/or locking of the doors will be utilized in an effort to minimize traffic. ECS will position the intake of each Summa canister at a height of approximately 5 feet above the floor during sampling. The Summa canisters will be submitted to a NELAC laboratory for analyses of VOCs by EPA Method TO-15. 4.0 LABORATORY ANALYSIS 11 Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 ECS proposes that the indoor air and sub -slab soil gas samples be analyzed for VOCs by EPA Method TO- 15 plus naphthalene. Site -specific contaminants of concern include benzene, chloroform, ethylbenzene, 1,2,4-trimethylbenzene, 1,3,5-trimethyl benzene, and m&p xylenes which are reported in the TO-15 analyte list. Benzene, chloroform, ethylbenzene, 1,2,4-trimethylbenzene, 1,3,5-trimethyl benzene, and m&p xylenes detections reported above Non -Residential and/or Residential VISLs are illustrated on Figure 4. 5.0 QUALITY ASSURANCE/QUALITY CONTROL ECS will follow the Program's Checklist guidance for duplicate sample collection frequency of one duplicate per 20 samples, per media, per method, per day. The duplicate soil gas sample will be collected from a single VaporPin° probe into two Summa canisters using a stainless -steel tee fitted with a single flow regulator as described in the Scope of Work section earlier. During the shut-in test for the sampling train, the initial canister pressure will be noted and logged. If the initial canister vacuum is less than 27 inches mercury, it will not be used for sampling. During sampling, the valves on the indoor air and soil gas sample canister will be stopped when the internal vacuum has reached -5 in Hg. This will ensure that sufficient residual vacuum is retained during shipment to the laboratory and that a time -weighted sampling period concentration can be documented. Dedicated sampling trains comprised of new tubing, fittings, syringes will be used for each sample location. To prevent possible cross -contamination, probe/sampling train materials will not be re -used between sampling locations. With canister sampling, there are minimal QA/QC requirements other than ensuring the valve is securely closed and a Swagelok cap fitting is placed on the inlet port. The canisters will be labeled with the date, site information, sample identification number, initial and final vacuum readings and sampling times, and the requested analysis. They will then be placed into laboratory -supplied shipment containers for shipment to a laboratory certified for EPA Method TO-15 analyses plus naphthalene. The laboratory analytical request form will be completed and enclosed with the canister shipment to the laboratory for the above -specified analyses under standard chain -of -custody protocol. 6.0 INVESTIGATION DERIVED WASTE MANAGEMENT The borings from the sub -slab placement of the VaporPin® probes with the hammer drill will create a small quantity of waste (concrete dust). This material will be collected using a shop vac during hammer drilling, placed in a trash bag, then disposed in a site dumpster or trash can. Based on prior sub -slab sampling, no hazardous levels exist that would require containerizing or further waste characterization/disposal. 7.0 REPORTING ECS will prepare a written report documenting the field activities, sampling procedures, sample locations, PFE testing results, laboratory procedures and analytical results discussion, and conclusions for submission to the NCDEQ BRS. The report will include a sample location figure, data tables, and field notes. 17 Wright's Executive Sales 11 Durham, Durham County, North Carolina VIMS System Effectiveness Testing Workplan — Revision 1.0 Brownfields Project #24007-20-032 January 3, 2024 The data tables will include estimated concentrations and compound specific method detection limits (MDLs) if the respective compounds are not detected above MDLs. The report will follow the NCDEQ BRS Vapor Intrusion Work Plan and Report Checklist (Appendix B) and include laboratory reports/analytical data and chain of custody documents. The PFE testing results will be compared to a criteria of -0.016 "H2O vacuum or 4 pascals. The sub -slab soil gas sample results will be compared to the most recent version (July 2023) of the NCDEQ, DWM Non -Residential VISLs. ECS will generate a risk calculator using the most recent version (July 2023) by using the maximum concentration of every compound across the site for sub -slab soil gas samples. The same conservative process will be utilized for indoor air sample results. The risk calculators will be generated using laboratory reporting limits for non -detect compounds in sub -slab soil gas and indoor air. The report will be signed and sealed by a North Carolina Professional Engineer or Licensed Geologist. If unidentified and unexpected conditions are encountered during the assessment, Geerhouse Owner, LLC and the NCDEQ BRS will be notified within 48 hours. Such conditions will be summarized and submitted to the NCDEQ BRS. It should be noted that the responsibility of notifying NCDEQ BRS or other external parties lies solely with Geerhouse Owner, LLC and/or with ECS acting on its behalf. Occupancy in the building will not be permitted until written approval is received from the NCDEQ BRS. The final report shall include a recommendation as it relates to occupancy. G9 FIGURES { -00 Mir � '.+ ALE: Ot -�Mw r ,USGS TOPOGRAPHIC MAP SITE TOPOGRAPHIC LOCATION MAP NORTHWEST DURHAM, NC (TOP) + Wright's Executive Sales 11 qw APPROXIMATE BROWNFIELD PROPERTY BOUNDAR SOURCE: FIGURE 1 7.5 — MINUTE SERIES �I SOUTHWEST DURHAM, NC (BOTTOM) Brownfields Project Number 24007-20-032 DA.--Foster 000 Durham, Durham County, North Carolina PIN:0822903182 s. E I sus F � - t 6091, SOURCE: £ ECS Southeast, LLP s Phase I ESA, December 6, 2019 APPROXIMATE SCALE: 100 FT. Ot--__1 a- 1 " 415 FFM— L �• M 4(1 ' . 723: I I 3F. 1 14 - 1A. Simw I �. k, �I - PIN: 0821992974 ' I; �III �i � �t _ FIGURE 2 BROWNFIELD PARCEL LOCATION MAP Wright's Executive Sales II Brownfields Project Number 24007-20-032 721 & 723 Rigsbee Ave; 620 & 616 Foster St. Durham, Durham County, North Carolina ECS Project Number: 49-10039-B AMR — Jr � �- S R _— SG-8 Chloroform: 13 µg/m3 Ethylbenzene: 180 µg/m3 1,2,4-Trimethyl benzene: 750 µg/m3 r 1,3,5-Trimethyl benzene: 610 µg/m3 «— m&p Xylenes: 830 µg/m3 k �. x — - r. SG-9 + 4t Benzene: 15 µg/m3 �. SG-1 Benzene: 25 µg/m3 Chloroform: 13 µg/m3 X 1,3-butadiene:58 m3 / . 1 { ys SG-2 Benzene: 12 µg/m3 Legend 4' Exterior soil -gas sample location (October/November 2020) Sub -slab soil -gas sample location (October/November 2020) ## µg/m3 Concentration above Residential VISLs �+ ## m3 Concentration above Non -Residential VISLs SOURCE: £ ECS Southeast, LLP s Phase I ESA, December 6, 2019 Building Plans APPROXIMATE SCALE: 100 FT. FIGURE 3 BASELINE STUDY SAMPLE LOCATION MAP Wright's Executive Sales II Brownfields Project Number 24007-20-032 721 & 723 Rigsbee Ave; 620 & 616 Foster St. Durham, Durham County, North Carolina ECS Project Number: 49-10039-B { SG-2/PFE-2/IA-2 SG-1/PFE-1/IA-1 f SG-5/PFE-5 JrfLEY TORSHAfT i I j•;. PRE-0CCU PAN CYSU&-SLAB- I�'. SAMPLING LOCATIONS SG-3/PFE-3/IA-3 SG-6/PFE-6 L L UNDERGROUND PARKING a LEVEL IRETAIL I G-9/PFE-9� j� SG-10/PFE.10 v ` ~ LEVEL 2 RET SG-11/PFE-11 SOURCE: Vapor Intrusion Mitigation Design ECS, Southeast LLP (July 12, 2022) SCALE SHOWN ABOVE ' 1 I - i I l .. .-1 VAPOR PIN{TYPICAIj I 3 I SG-13/PFE-13 o I LEVEL 3 RETAI L LP 6 ` I 11 -SG:1 / FE-12 LEVEL 3 RETAIL >SG-114/PFE-14 'ETA1i . 1 FIGURE 4 Legend PFE Testing and Sample Location Map Wright's Executive Sales II Sub -slab, indoor air, and PFE testing location Brownfields Project Number 24007-20-032 721 & 723 Rigsbee Ave; 620 & 616 Foster St. Durham, Durham County, North Carolina E) Sub -slab and PFE testing location only ECS Project Number: 49-10039-B TABLES Table 1: Property Summary Wright's Executive Sales II Durham, Durham County, North Carolina ECS Project No. 49:10039-B Brownfields Project No. 24007-20-032 BF Project No. Parcel No. Address Site Acreage Former Use Proposed Use 721 Rigsbee Avenue, Durham, NC 0822903182 Acme Plumbing and Heating 723 Rigsbee Avenue, Durham, NC (offices and storage), a stand Mixed -use multifamily residential, retail, commercial, 24007-20-032 2.37 acres alone yoga studio, Motorco and/or restaurant complex space 620 Foster Street, Music Hall, and The Durham, NC Mothership creative space 0821992974 616 Foster Street, Durham, NC Table 2: Proposed Samples and Analysis Wright's Executive Sales II Durham, Durham County, North Carolina ECS Project No. 49:10039-B Brownfields Project No. 24007-20-032 Sample Media Laboratory Analysis & Analytical Method VOCs Sub -Slab Soil Gas Samples SG-1 EPA Method TO-15 SG-2 SG-3 SG-4 SG-5 SG-6 SG-7 SG-8 SG-9 SG-10 SG-11 SG-12 SG-13 SG-14 DUP-SG 1 DUP-SG2 Indoor Air Samples IA-1 EPA Method TO-15 IA-2 IA-3 DUP-IA IA -Ambient Sample Type Sub -slab soil gas samples: 10-minute air samples using 1.4-L Summa canisters Indoor Air Samples: 24-hr air samples using 6-L Summa Canisters Notes: VOCs = Volatile Organic Compounds DUP-SG1 will be collected from SG-2 DUP-SG2 will be collected from SG-12 DUP-IA will be collected from IA-3 APPENDIX A Wright's Executive Sales II VIMS Design .� Illa m 3 WMARKHAMAv/ ��dddccc--+ll--- 2� URBAN AVE _ oaaANAVE I _ , Z 3 J �. " >� m� p i �EM. O N o x > > Dacian Ave y� v Monmouth Ave — ELEVATOR / �l ? eierSt Vg -SHAFT - �� 32b 62d LOCATIONt 1 �I " ( MONMOUTH AVE � L.�". P�' .�. O � ., �4 74e 4O1 723 t s -' rW TRINITY AVE o; ti-636 E larart'� s z W Trinity Ave _ lam_ ,� i I f, p v� MINERVAAVE— ST WGEER ST 2 R m z Ja Ave PROJECT LOCATION 15 Wilms +� f�_ �� 7,3o e A 9 " �, 70 w coaco �� 5 /� m N— _ z 728 1 C 70 / PROJECT NGWN LOCATION CANALS IT m J N A O �/ 834 • a:: I _ 717 CRAVE « 1 �Y 719 LL ST i U 98 t 747 J MALLARD AVF�._-55, N " Broadway s, k f ,- ' 618 `r- •Y/' aailil6a APPROXIMATE Sr W I 70 6 Hunt St sos s1a 715 , PROPERTY N N � , OUN ,B DARY "' . rarr„ -/ �.. 7.11 of 41�� .. l �,, .'N° _ s si , Topographic Map Site Vicinity Vapor Venting Design Prepared For., Geerhouse Owner, LLC Site Location.- Wright's Executive Sales 721 and 723 Rigsbee Avenue; 620 and 616 Foster Street Durham, Durham County, NC 24007 Brownfields Project Number: 24007-20-032 Date: September 29, 2022 Prepared By: ECS ECSSoutheast 5260 Greens Dairy Rd. Raleigh, NC 27616 Aerial Photo DRAFT NOT FOR C r"ISTRUCTION DRAWING LIST FIGURE DESCRIPTION 0 COVER 1 NOTES 2 DETAILS 3 VAPOR PIN DETAIL/NOTES 4 FOUNDATION PLAN - System Location 5 FOUNDATION -System Layout 6 Vapor Pin Locations 7 LEVEL 2NORTHEAST - Riser Location 8 LEVEL 3NORTHEAST - Riser Location 9 LEVEL4NORTHEAST - Riser Location 10 LEVEL 5-9 NORTHEAST- Riser Location 11 ROOF NORTHEAST- Riser Location 12 LEVEL 1 AREAS 13 LEVEL AREAS 14 LEVEL3 AREAS 1. GENERAL 1.1. SUMMARY A. Furnish and install a passive vapor intrusion mitigation system as specified and as shown on the Engineering Drawings. The Contractor shall supply materials required for the installation of a passive vapor intrusion mitigation system capable of being activated at a future time if necessary. The passive vapor intrusion mitigation system shall vent the stone aggregate beneath the elevator footing (as shown of the Engineering Drawings). B. Furnish and install minimum 6" thick stone aggregate layer, free of fines, beneath and on all 4 sides of the elevator shaft.4" 0 plain -and hell -ended slotted schedule 40 PVC piping (well screen) shall be embedded in the stone aggregate around the elevator shaft. The piping around the elevator shaft shall connect to a 4"0 schedule 40 sanitary tee connecting to a 4"0 schedule 40 PVC riser. Riser to be mounted to interior wall of the trash chute as depicted in drawings and end above roof line. Riser pipe to terminate at a coupling leading to an 8" galvanized wind drive turbine ventilator. C. Permanent sub -slab vapor monitoring points (Vapor Pins) shall be installed to facilitate future sub -slab soil gas sampling and to monitor sub -slab vacuum with a handheld micro -manometer. D. Install an electrical junction box within 5 feet of the potential in -line fan location and 3/4" conduit to breaker board in the event that an active system is deemed necessary in the future. Outlets and breaker board circuit shall be labeled accordingly. All electrical work shall be completed by. licensed electrical contractor. E. Materials and equipment furnished shall be in new condition and installed in accordance with the manufacturer's recommendations. F. Con duct post -construction testing and certify results of inspections and tests as specified. Sampling reports will be submitted to NCDEQ within approximately 60 days of completion of the sampling. The reports must be submitted to the Brownfields Program for conditional occu parry considerations as per standard Brownfields VI Previsions . 1.2 STANDARDS AND REG U CATIONS A. Comply with applicable portions of the Building Code of the city of Durham, NC. Where requirements for products, materials, equipment, methods and other portions of the work specified herein exceed minimum requirements of Building Code, Contractor shall comply with such requirements specified herein, unless specifically approved otherwise by the Engineer. 1.3 SUBMITTALS A. Product Data: Submit manufacturer's product data, including installation instructions, for: I. Vapor barrier (VaporBlock Plus 20) Pipes and fittings Slotted well screen Seam tape V. Turbine vi. Pipe boots B. Shop Drawings: Submit shop drawings showing vapor intrusion mitigation system layout, sub -slab vapor onitoring point locations (Vapor Pins), riser locations and termination, and penetration details. Include construction materials and schematic for sub -slab vapor monitoring points. C. Pipe Schedule: Itemize pipe and fitting materials for each specified application. D. Product Samples: Submit representative samples of the following for approval: i. Vapor Barrier VaporBlock Plus 20. 1.4 DELIVERY, STORAGE, AND HANDLING A. Deliver materials to site in good new condition, with labels identifying products and manufacturer. B. Store materials in a clean, dry, UV free area in accordance with manufacturers' instructions. C. Protect materials during handling and installation to prevent damage. D. Properly protect piping to prevent damage to the pipe and the introduction of foreign material into the pipe. E. Inspect vapor barrier, seam tape, pipe, and fittings before installing. Do not install if found to be defective. 2. PRODUCTS 2.1. MATERIALS A. Gas Permeable Aggregate Layer I.Stone aggregate layer shall be No. 57 stone, or equivalent with no more than 5%fines passing through 9200 sieve. B. Pipe and Related Accessories I Pipe, fittings, unions, cl—routs, sleeves, supports, and related accessories shall be furnished in cordance with the requirements of the State of North Carolina. 11. Riser pipe shall be 4" schedule 40 PVC. ni. Horizontal pipe shall he 4" schedule 40 PVC plain and slotted well screen. C. Wind -Driven Turbine Ventilator shall be an A' galvanized wind -driven ventilator. i. Provide additional installation accessories as necessary for a complete passive vapor intrusion mitigation system, ready for future activation if necessary. 3. EXECUTION 2.1. SURFACE PREPARATION A. Prior to installation of the passive vapor intrusion mitigation system, surfaces should be properly prepared and proof -rolled in the presence of an ECS representative.. 3.2 INSTALLATION A. The passive vapor intrusion mitigation system for Geerhause site shall be installed as specified as shaven on the Engineering Drawings. B. Installation of gravel substrate and sub -slab mitigation system: The sub -slab slotted well screen vent piping shall be installed as shown an the Engineering Drawings. ii. The layer of gravel surrounding the elevator shaft and around the well screen piping system shall be placed and compacted as shown on the Engineering Drawings. H. Install the 20mil thick vapor barrier (VaporBlock Plus 20) as shown on the Engineering Drawings and the manufacture specifications. iv. Use products specific to the Engineering Drawings and seal piping at penetrations through the floor slab. Follow Engineering Drawings for connecting sub -slab well screen to vent risers. v. Install Vapor Pins in accordance with the Engineering Drawings. C. Installation of piping/venting: 1. The Engineering Drawings and requirements by the State of North Carolina shall be followed with regards to installation of the sub -slab and above slab piping. ii. Pipe fittings shall be as airtight and straight as possible. iii. Non -exposed pipes will be labeled at no greater than 10 foot intervals. 3.3 PROTECTION A. Protection of the passive vapor intrusion mitigation system is reliant upon the general contractor. No damage or unsealed punctures may occur to the mitigation system throughout the construction process. 3.4 FIELD QUALITY CONTROL A. Under no circumstance shall any portion of the VIMS be covered (piping, gravel, barrier) without an inspection under direction of the Engineer of Record and notification to DEC. B. NCDEQwill he provided 48-hour(minimum) notice prior to scheduling inspection activities. Inspections ofthe mitigation system will be performed by or under supervision of Engineer of Record and the party responsible for installation. The installation contractor shall assure the proper coverage and thickness are achieved across the entire area shown in the Engineering Drawings. C. Upon completion of the vapor barrier, sub -slab piping, and concrete slab, a pressure field extension (PEE) test will be performed in order to confirm that necessary areas under the slab can be properly influenced by the vapor intrusion mitigation system. Vapor Pins will be installed throughout the slab to help facilitate the PEE testing. D. Upon completion of the construction of the structure, and as required by the Brownfields Program, soil gas and/or indoor air sampling will be conducted at Vapor Pin locations under the supervision of the Engineer of Record or a Professional Geologist. The number of samples and Vapor Pin locations is to be decided later in conjunction with the environmental consultant and the Brownfields Program. 4. VAPOR BARRIER GENERAL 4.1 SUMMARY A. VaporBlock Plus 20, 20mil thick vapor barrier providing adequate protection from VOC Constituents vapor intrusion. B. VaporBlock Plus 20 vapor barrier is a seven -layer co -extruded barrier made using high quality, virgin -grade polyethylene and EVOH resins, providing adequate protection from VOC constituents vapor intrusion. 4.2 DELIVERY, STORAGE, AND HANDLING A. Deliver materials to site in good new condition, with labels identifying products and manufacturer. B. Store materials in a clean, dry, UV free area in accordance with manufacturers' instructions. C. Protect materials during handling and installation to prevent damage. D. Inspect vapor barrier before installing. Do not install if found to be defective. 4.3 SUBMITTALS A. Submit Safety Data Sheets (SDS) and manufacturer installation instructions. SDS must confirm that VOCs shall not be used in any of the construction materials. B. Laboratory test results showing compliance with ASTM& ACI Standards shall be submitted. Vapor barrier anufacturer's samples, literature, and installation instructions for placement, seaming and penetration repair shall be submitted. C. Warranties i. To be determined by the product used and the manufacturer's warranty, if applicable. 4.4 OA/QC A. Vapor barrier installation contractor shall be properly trained in the installation procedures for the vapor barrier selected. B. General Contractor is responsible for ensuring that vapor intrusion mitigation system (VIMS) is installed as designed. The VIMS will be inspected periodically and on a scheduled basis by either the Engineer of Record or ne directly under his/her supervision. NCDEQ will be provided 48-hour (minimum) notice prior to scheduling inspection activities. S. PRODUCTS 5.1 MATERIALS A. VaporBlock Plus 20 for mitigating tetrachloroethylene and trichloroethylene vapor intrusion. 6. EXECUTION 6.1 EXAMINATION A. Surfaces to receive vapor barrier shall be inspected and approved by the vapor barrier installation contractor at least one day prior to commencing work. Vapor barrier installation contractor shall verify with Owner's Representative the areas for application of vapor barrier. Notify the General Contractor, in writing, of circ instances detrimental to the proper completion of the work. Do not proceed with work until unsatisfactory conditions are corrected and are acceptable for compliance with manufacturer's requirements. 6.2 SURFACE PREPARATION A. Surface preparation shall be conducted in accordance with the manufacturer's specifications. B. Gravel surface below elevator footing shall be compacted and maintain a consistent minimum thickness of 6", in accordance with the Engineering Drawings. Finished gravel surface shall be free from any sharp edges that could damage the vapor barrier. 6.3 INSTALLATION A. General i. Vapor harrier shall be installed after surface preparation has been completed per section 3.2.A and priorto the placement of reinforcing steel or the placing of the concrete slab. Reinforcing steel or other materials such as stakes shall not penetrate the vapor barrier. Steel rebar on top of moisture and vapor barriers shall be installed on chairs that rest on the membranes without damaging them. Vapor barrier shall be installed beneath the elevator footing and immediately adjacent to the side walls as shown in the Engineering Drawings. Vapor barrier shall be sealed to the using Vapor5eal 4-inch Tape (Product Name 5450-66) Penetration Sealing ill Penetrations shall be cleaned. The vapor barrier rolled out onto the compacted sub -grade shall overlap by a minimum of 12". The seam shall be sealed with manufacturer's suggested barrier material, such as specific tapes or mastics. iv Seal penetrations made through the vapor barrier with manufacturer approved materials or products, with a thickness suitable by the manufacturer. Seals should continue for a minimum of 4" on each side of the penetration to ensure proper sealing. Conduits/utility lines shall he encapsulated by a PVC fitting filled with an appropriate form of VOC-free sealant to ensure migrations of soil gas through the conduit do not occur. Lap vapor barrier over foundations and seal to the vertical stem wall with Vapor5eal 4-inch Tape (Product Name 5450-66) and Butyl Seal 2-Sided Tape (Common Name TP2BR). v. All opening,gaps, and joints in floor and wallassemblies in contact with soil or gaps around pipes, toilets, or drains penetrating these assemblies shall be filled or, r closed with in that provide a permanent air -tight seal. vi. Repair damaged areas by applying VaporSeal 4-inch Tape directly over the center of the hole or tear until a width of 12 inches is obtained. Apply pressure to create a seal. 6.4 QA/QC A. Inspections of the mitigation system will be performed by or under supervision of the Engineer of Record. NCDEQwill be provided 48-hour (minimum) notice prior to scheduling inspection activities. The installation contractor shall assure the proper coverage and workmanship are achieved across the entire area shown in the Engineering Drawings. If inspections conducted by the Engineer of Record discover inadequate installation, the faults must be rectified prior to continuing work in that area. B. Testing barrier integrity 1. Confirmation/Smoke testing H. Smoke testing shall be conducted by prior to the concrete slab being placed to ensure that the vapor barrier is leak free and will work effectively. The PE shall supervise the smoke testing and NCDEQ will be provided 48-hour (minimum) notice prior to scheduling smoke testing. NOTE: 1. RISER SHALL NOT BE LESS THAN 10 FEET FROM ANY EXHAUST OR AIR INTAKE FANS 2. ADD ROOFTOP BRACING AS REQUIRED SEAL ROOF PENETRATION PER ROOFING - Z MANUFACTURER'S SPECIFICATION N FINISHED ROOF- 1 PIPING TO BE LABELED ALONG THE PIPING RUNS AT INTERVALS NO GREATER THAN 10 LINEAR FEETTHAT STATE "VAPOR MITIGATION SYSTEM" WITH CONTACT INFORMATION FOR QUESTIONS OR REPAIRS. SECURE RISER TO WALL EVERY V OR AS PER LOCAL BUILDING CODE (TYPICAL) 8" 0 WIND -DRIVEN TURBINE VENTILATOR -4" 0 TO 8" 0 RUBBER COUPLING JUNCTION BOX TO ELECTRIC PANEL FOR POSSIBLE CONVERSION TO ACTIVE SYSTEM FIRE SUPPRESSION COLLAR IN ACCORDANCE WITH LOCAL BUILDING CODES (TYPICAL EACH FLOOR) 4" 0 SOLID SCH. 40 PVC PLAIN -AND BELL -END SOIL VAPOR VENT RISER 9TH FLOOR %1 Soil Gas Vent Riser at Roof (Typ.) z 4" 0 SOLID SCH. 40 PVC PLAIN -AND BELL -END SOIL VAPOR VENT RISER WALL ELEVATOR WALL TRASH TRASH CHUTE CHUTE WALL SECURE RISER TO WALL EVERY 8' OR AS PER LOCAL BUILDING CODE (TYPICAL) Soil Gas Vent Riser in Trash Chute z 0 1.25' 2.5' 1/2" = V-0„ (::) Soil Gas Vent Detail z SOLID SCH. 40 PLAIN -AND END SOIL VAPOR T RISER SCH. 40 PVC TEE OR BARRIER 'ORBLOCK PLUS 20) LTO ELEVATOR SHAFT 'H MANUFACTURER ROVED MASTIC AIN. GAS PERMEABLE SREGATE SUB -BASE Secure: •d Cover Protective �• Cover' Vapor Pin ' Silicone a Sleeve � e . a .a ' .d .2 . : .a . a �'o°nsrete i Slab O 00 0^60 c nt�> o c O D O no 0 o 0 01 0��'RoC O� O n O O 0 rescQe c OHO tno 0 00�0 O OC700 OC 0 00 O o 0 c nib-rJOr O O no 01 00C_ b G O OCOO OC O O O O CO O O c 0o0oo0ED0no0 O O O O CO O O C 0 0 0 0 c0 0 0 c 0o Ono OrD Ono 01 Co0OC700O000 0OOC 0 0 0 0 60 0 0 c 0o Ono O rD Ono 01 O O O O CO O O C O 00 O c 00 0 00 o0 00.00_c — I Sub -Grade _ Standard Operating Procedure Installation and Extraction of the Vapor Pin' Updated March 16, 2018 Scope: This standard operating procedure describes the installation and extraction of the VAPOR PIN® for use in sub -slab soil -gas sampling. Purpose: The purpose of this procedure is to assure good quality control in field operations and uniformity between field personnel in the use of the VAPOR PIN® for the collection of sub -slab soil -gas samples or pressure readings. Equipment Needed: • Assembled VAPOR PIN® [VAPOR PIN® and silicone sleeve (Figure 1)]; Because of sharp edges, gloves are recommended for sleeve installation; • Hammer drill; • 5/8-inch (16mm) diameter hammer bit (hole must be 5/8-inch (16mm) diameter to ensure seal. It is recommended that you use the drill guide). (HiltiT" TE-YX 5/8" x 22" (400 mm) #00206514 or equivalent); • 1 Y.-inch (38mm) diameter hammer bit (HiltiTM TE-YX 1 %" x 23" #00293032 or equivalent) for flush mount applications; • Y.-inch (19mm) diameter bottle brush; • Wet/Dry vacuum with HEPA filter (optional); • VAPOR PIN® installation/extraction tool; • Dead blow hammer; • VAPOR PIN® flush mount cover, if desired; • VAPOR PIN® drilling guide, if desired; • VAPOR PIN® protective cap; and • VOC-free hole patching material (hydraulic cement) and putty knife or trowel for repairing the hole following the extraction of the VAPOR PIN®. Installation Procedure: 1. Check for buried obstacles (pipes, electrical lines, etc.) prior to proceeding. 2. Set up wet/dry vacuum to collect drill cuttings. 3. If a flush mount installation is required, drill a 1 %-inch (38mm) diameter hole at least I %-inches (45mm) into the slab. Use of a VAPOR PIN® drilling guide is recommended. 4. Drill a 5/8-inch (16mm) diameter hole through the slab and approximately 1-inch (25mm) into the underlying soil to form a void. Hole must be 5/8-inch (16mm) in diameter to ensure seal. It is recommended that you use the drill guide. 5. Remove the drill bit, brush the hole with the bottle brush, and remove the loose cuttings with the vacuum. 6. Place the lower end of VAPOR PIN® assembly into the drilled hole. Place the small hole located in the handle of the installation/extraction tool over the vapor pin to protect the barb fitting, and tap the vapor pin into place using a dead blow hammer. Make sure the installation/extraction tool is aligned parallel to the vapor pin to avoid damaging the barb fitting. During installation, the silicone sleeve will form a slight bulge between the slab and the VAPOR PIN® shoulder. Place the protective cap on VAPOR PIN® to prevent vapor loss prior to sampling. 7. For flush mount installations, cover the vapor pin with a flush mount cover, using either the plastic cover or the optional stainless -steel Secure Cover. 8. Allow 20 minutes or more (consult applicable guidance for your situation) for the sub -slab soil -gas conditions to re -equilibrate prior to sampling. 9. Remove protective cap and connect sample tubing to the barb fitting of the VAPOR PIN®. This connection can be made using a short piece of TygonT" tubing to join the VAPOR PIN® with the Nylaflow tubing. Put the Nylaflow tubing as close to the VAPOR PIN® as possible to minimize contact between soil gas and TygonT" tubing. 10. Conduct leak tests in accordance with applicable guidance. If the method of leak testing is not specified, an alternative can be the use of a water dam and vacuum pump, as described in SOP Leak Testing the VAPOR PIN® via Mechanical Means. For flush -mount installations, distilled water can be poured directly into the 11 /2-inch (38mm) hole. 11. Collect sub -slab soil gas sample or pressure reading. When finished, replace the protective cap and flush mount cover until the next event. If the sampling is complete, extract the VAPOR PIN®. Extraction Procedure: 1. Remove the protective cap, and thread the installation/extraction tool onto the barrel of the VAPOR PIN®. Turn the tool clockwise continuously, don't stop turning, the VAPOR PIN® will feed into the bottom of the installation/extraction tool and will extract from the hole like a wine cork, DO NOT PULL. 2. Fill the void with hydraulic cement and smooth with a trowel or putty knife. • Prior to reuse, remove the silicone sleeve and protective cap and discard. Decontaminate the VAPOR PIN® in a hot water and Alconox® wash, then heat in an oven to a temperature of 265° F (130' C) for 15 to 30 minutes. For both steps, STAINLESS - Y. hour, BRASS 8 minutes. I� T-3" T-8' 1 14 b it - TOC= 343.90' F7 u m - M r _ u i 2'-0" 1- uf19 12 S 2.' See Figure 5 0 20 40 Zip 71 -31 1 F' I -(I TOC= 343.90' ) I plf, 4 [nnrin�r. 1 m a 14 n � o c) LO Lo - VAPOR BARRIER (VAPORBLOCK PLUS 20) �1'1 (SEAL TO ELEVATOR SHAFT WITH %- 0 MANUFACTUR � APPROV i D' coASTIC) M\ 4" O SCH. 40 ELBOW I I I I c 4,0 SCH."0 PVC SLOTTED SCREEN L— VS-2.2 �- _ FS r'bti _ ELEVATOR 4"0 SCH. 40 PVC TEE ' -�_ r � - SHAFT 4" 0 SCH. 40 PVC (VENT RISER) _2,_�„ F-� B S1 -2 Q F8 2 rummmuumuuuumuuuumouuuumuuuuuommmoomuuuommuuuummmuumuuuumuuuumouuuuuomu"�/ FOOTING 12 cs t 0 2.S' S' 1/4" = 1'-0.. - 3 1 1 I I 1 7-c EL EI/A TOR SHAFT •" 1 1 1 • �Ii i PRE-O00U PANCY SUB SLAB -- SAMPLING LOCATIONS j LEVEL 1 UNDERGROUND PARKING 1 ---.--I 1.------------------- ----- ----------:---------- — u VAPOR1 (TYPICAL) "I PIN ( PICALJ "..,� r LEVEL 1 RETAIL am �- j _ s ❑ :, p- _ _� __ 1 i 1 (• _ _ It <'-o> L..---- 4 LEVEE 3RETAIL pl. cl 4h - ==1 - ❑ ❑ _ LEVEL 3 RETAIL pl} _ _ �' _ LEVEL 3 RETAIL LEVEL 1STORAGE - 1- - 1 L._._._-................ _._ _._._ ._._._._:_ ._.._._._._._._._._._. ......... ._._ _ ._ _ _. _._.__._._._._._._._._._._) \ I 0 15 30 ELEVATON 345 GB — 1' — -- nl I I. C7 VLN — _ � aBTEB � ❑ I ,� — — — — — -----------� BE�oWsaB ..._ - i W B W Gp El li AAA �TENA ��/--T-N-NT TA--__-3-..� --__J UFO i H B'ROM— IZ — 1 J -,2•CW BN - C 4" 0 SCH. 40 PVC VENT RISER 0 3 (IN TRASH CHUTE) 0 )7-o' 0 PROJECT#: 49-10O39-B Client: Geerhouse Owner, LLC - DRAWN BY: TLorgo Site Location: Wright's Executive Sales CHECKED BY: Sszakasits 721 and 723 Rigsbee Avenue; 620 and 616 Foster Street C erley Durham, Durham County, NC 24007 PROJECT Sept SW2022 DATE: September 29, 2022 U, LEVEL 2 NORTHEAST Figure REVISED: SCALE: Riser Location 7 1"=10' PRINTED: 9/29/20224:56PM C:\On rW ECS ,porate Servirea\DWG\Project\49UW39-BWright\Vapor Mitigation Planv4 7i + i � + i \ RETAIL BELOW:l / Y / LOBBY \ BELOW / ELECTRIC. BELOW \ PARKING ENTRY LOADING ENTRY — / _BELOW — BELOW — — BELOW— — - \ I\ � 0 � MECH. BELOW S3 r-- E3ivy -L . I ` C 4"� SCH. 40 PVC VENT RISER (IN TRASH CHUTE) 2 � I I /k6 7 1 (V 362.70 ' 358.00 I 7:1\ i 7'I I 6.676% ua 1 � r )4 a C C C C C C C C 07 A-3.3 — L 35'-2" 20'-6" pg 3'-0" 1 V-8° 354.56 `90 21 GS <. s ua 04 _ — — 0 10" B C C C \3/ 362.70 0 25 So ' TYPE e ND ----_-- , _ I P " w HD HlD UP -1.6 UP us UP 5 /�—uv �� B U \ T RBT2 Y 4'w s aUw- i II ? PIV 3� \ e � a 0 I a s.w � s'ui 1 sw , M7=. W \\\\ 9'VJ DN UP '� UP <'W UP N:�oe Ln v t s.orrnc� pa naN i ELEVATOR \� a V fa,V T. I mew up a� DN N6 C ' 4" 0 SCH.40 PVC VENT RISER �S.1' 3 (IN TRASH CHUTE) PQ PS PK CI -- � I � hil I = i�l I■�I hI_ � I I��I 1_ ��.LEM+ I 1 ■ 10IIIIIIIIIIIIIIIII �MEN C—' ■�i �' I I I� ■■ m1�1- ' 11 - � UIC `, �� i ICI -- - p • ; � . nrPll.� i_ i © 4>�, d3 „SCH. „ PVC VENT RISER I(IN TRASH CHUTE) PER YI''II�Lj � �L ! . ®Ili■ . "' a _ U, - C PROJECT#: 49-10039-B Client: Geerhouse Owner, LLC Site Location: Wright's Executive Sales and 723 ham Co Avenue; 240 and 616 Foster Street Durham, Durham, Durham County, NC 24007 DRAWN BY: TLorgo BY: SS PROJECT Werl y PROJECT SW2022 DATE: September 29, 2022 Sept LEVELS 5-9 NORTHEAST Riser Location Figure 10 REVISED: SCALE: 1"=10' PRINTED: 9/29/20224:66 PM C:\OneDrW ECS ,p..te Servirea\DWG\Project\49UW39-BWright\Vapor Mitigation Pt.A l� DS DS DS >T I ' I ' ®O 0 D 6--a-0— o --0 -----------Rl�/A n��n �O C 4" 9 SCH. 40 PVC VENT RISER 3 (IN TRASH CHUTE) I ELEVATOR 0 0 1 ti TPO ROOF MEMBRANE SYSTEM PIPE VENTT1UGH ROO Z L ° , I , I ITS — — — —DS �0 0 ° , 0 0 PROJECT #: 49-10039-B i DRAWN BY: TLongo S C CHECKED BY: SSWelles PROJECT MCRSept SW2022 DATE: September 29, 2022 U, REVISED: - SCALE: 1"=10' PRINTED: 9/29/20224:56 PM Cron DS 1y19[N:1011 awai1111 TYPICAL CONDENDER UNIT. SEE MEP DRAWINGS TWO LAYERS OF TPO AT _ WALKING PATH AND UNDER CONDENSING UNITS. — TRASH CHUTE VENTS 1 A-4.2 A-3.3 7 S.1 i i I fQ 1 D21 SO � APPROXIMATE AREAS PARKING 24,594 SQ. FT. CORRIDORS I 1 F 1 STORAGE 1 UTILITY ELEVATORS STAIRS 2,987 SQ. FT. RETAIL 4,918 SQ. FT. VAPOR MITIGATION AREA 240SQ.FT BUILDING IN CONTACT WITH SOIL 33,539 SQ. FT. ELEVATOR SHAFT A P4 STAIRWELL VAPOR PIN (TYPICAL)-i 1(j ) i ❑ P15 ol 0 15 30 APPROXIMATEAREAS PARKIN 28,202.90 SQ. FT.. STORA E UTILITY ELEVATORS STAIRS 5,503.71 SQ. FT. RETAIL 1,325.8 SQ. FT. ®OPEN TO BELOW 5-85-9.611 SQ. FT. BUILDIA GIN CONTACT WITH SOO 8519.68 SQ. FT. AREA O VAPOR MITIGATION BENEA ELEVATOR ON 1ST FLOI - - - - EXISTING MORTOCO BUILDING Ti 6,643.65 SQ. FT. ELEVATOR SHAFT STAIRWHLP6, P9 - P1l P13 P15 ---- ----------------------- - ---------_--, 1 1 i - - I 1 I 1 1 1 . r i 1 1 1 I 1 I I 1 1 1 ❑ I 1 I 1 ❑ I 1 ❑ I 1 ❑ ❑ I 1 0 15 30 APPROXIMATE AR AS PARKING 28,202.905 . FT. ®ELEVATORS STAIRS 823.84 SQ. FT, AMENITIES 6,555.27SC FT. RETAIL 5, 690.72 SC. FT. TO Bf LOW ®OPEN 5,977.445 . FT. BUILDING It CONTACT WITH SOIL 5430.79 SQ. FT. AREA OF VAPOR MITIGATION BENEATH Ei EVA TOR ON 1ST FLOOR) ELEVATORS HAFT STAIRWELL I ' ' - — — ° -7 711 vmaRv `PB OPO. vVVVVVVVVVv®vv ' v° vv°vvvvo oo °v°a By • o°°,°9 0 0 0 0 0 0 0°° °vw v e�a�� o- dV° V 0°,J o �o° va °v • - oov� av A a v 1 1 v°vFv°v vvvvvvvgv vv °.q _ _ 1 1 _ 9vvvv vv vv° - � aii 1 Pvvvvv ... . 1 1 I ------------- 1 — — 1 1 — 1 / 1 1 I APPENDIX B Technical and Safety Data Sheets VAPORBLOCr PLUS TM VBP20 UNDER -SLAB VAPOR / GAS BARRIER PRODUCT DESCRIPTION VaporBlock® PIusT'" is a seven -layer co -extruded barrier made using high quality virgin -grade polyethylene and EVOH resins to provide unmatched impact strength as well as superior resistance to gas and moisture transmission. VaporBlock® PIusTI 20 is more than 100 times less permeable than typical high-performance polyethylene vapor retarders against Methane, Radon, and other harmful VOCs. Tested and verified for unsurpassed protection against BTEX, HS, TICE, PCE, methane, radon, other toxic chemicals and odors. VaporBlock® PIusT"" 20 multi -layer gas barrier is manufactured with the latest EVOH barrier technology to mitigate hazardous vapor intrusion from damaging indoor air quality, and the safety and health of building occupants. VBP20 is one of the most effective underslab gas barriers in the building industry today far exceeding ASTM E-1745 (Plastic Water Vapor Retarders Used in Contact with Soil or Granular Fill Under Concrete Slabs) Class A, B and C requirements. Available in a 20 (Class A) mil thicknesses designed to meet the most stringent requirements. VaporBlock® PlusT"' 20 is produced within the strict guidelines of our ISO 9001 Certified Management System. PRODUCT USE VaporBlock® PIusTI 20 resists gas and moisture migration into the building envelop when properly installed to provide protection from toxic/harmful chemicals. It can be installed as part of a passive or active control system extending across the entire building including floors, walls and crawl spaces. When installed as a passive system it is recommended to also include a ventilated system with sump(s) that could be converted to an active control system with properly designed ventilation fans. VaporBlock® PIusTm 20 works to protect your flooring and other moisture -sensitive furnishings in the building's interior from moisture and water vapor migration, greatly reducing condensation, mold and degradation. SIZE & PACKAGING VaporBlock@ PIusTm 20 is available in 10' x 150' rolls to maximize coverage. All rolls are folded on heavy-duty cores for ease in handling and installation. Other custom sizes with factory welded seams are available based on minimum volume requirements. Installation instructions and ASTM E-1745 classifications accompany each roll. .1. " - Under -Slab Vapor/Gas Retarder PRODUCT PART # VaporBlock® PIusTm 20 ................................................................ VBP20 APPLICATIONS Radon Barrier Vapor Intrusion Barrier Methane Barrier Under -Slab Vapor Retarder VOC Barrier Foundation Wall Vapor Retarder Brownfields Barrier UNDERSLAB VAPOR RETARDER / GAS BARRIER 0 2018 RAVEN INDUSTRIES INC. All rights reserved. VAPORBLOCK° PLUS TM vePzo APPEARANCE White/Gold THICKNESS, NOMINAL 20 mil 0.51 mm WEIGHT 102 Ibs/MSF 498 g/m2 CLASSIFICATION ASTM E 1745 CLASS A, B & C 3 ASTM E 154 TENSILE STRENGTH Section 9 58 Ibf 102 N (D-882) IMPACT RESISTANCE ASTM D 1709 2600 g ASTM E 154 Section 7 0.0098 Perms 0.0064 Perms PERMEANCE (NEW MATERIAL) ASTM E 96 grains/(ft2-hr-in-Hg) g/(24hr-m2-mm Hg) Procedure B ASTM E 154 PERMEANCE (AFTER CONDITIONING) Section 8, E96 0.0079 0.0052 Section 11, E96 0.0079 0.0052 (SAME MEASUREMENT AS ABOVE PERMEANCE) Section 12, E96 0.0097 0.0064 Section 13, E96 0.0113 0.0074 WVTR 0.0040 grains/hr-ft2 0.0028 gm/hr-m2 Procedure B BENZENE PERMEANCE See Note 6 1.13 x 10-10 m2/sec or 3.62 x 10-1s m/s TOLUENE PERMEANCE See Note 6 1.57 x 10-10 m2/sec or 1.46 x 10-1s m/s ETHYLBENZENE PERMEANCE See Note 6 1.23 x 10-10 m2/sec or 3.34 x 10-14 m/s M & P-XYLENES PERMEANCE See Note 6 1.17 x 10-10 m2/sec or 3.81 x 10-14 m/s O-XYLENE PERMEANCE See Note 6 1.10 x 10-10 m2/sec or 3.43 x 10-14 m/s HYDROGEN SULFIDE See Note 9 1.92E-09 m/s TRICHLOROETHYLENE (TCE) See Note 6 7.66 x 10-11 m2/sec or 1.05 x 10-14 m/s PERCHLOROETHYLENE (PCE) See Note 6 7.22 x 10-11 m2/sec or 1.04 x 10-14 m/s RADON DIFFUSION COEFFIECIENT K124/02/95 < 1.1 x 10-13 m2/s 3.68E-12 m/s METHANE PERMEANCE ASTM D 1434 Gas Transmission Rate (GTR): 0.32 mL/m2•dayatm MAXIMUM STATIC USE TEMPERATURE 180° F 82° C MINIMUM STATIC USE TEMPERATURE - 70' F - 57° C 3 Tests are an average of machine and transverse directions. VaporBlock@ Plus11A Placement B Raven Industries performs seam testing at 20" per minute. 'Aqueous Phase Film Permeance. All instructions on architectural or structural drawings should be reviewed and followed. Permeatioo of volatile orgaolc Compounds through EVOH Thlo rum Membranes and C.--ded rEDPE/EVOH/ Detailed installation instructions accompany each roll of VaporBlock® Plus" and can also ErDPE 6eomembmnes, M[wat-, and Rowe, moroal of Geotechnlcal and Geoe-ironmental September 2015. is the Permeation Coefficient to 1 film thickness Engmeedng® ASCE/ - 1 kg/m3.) be located at www.ravenefd.com. (Permeation adjusted a The study used todetermme PCE and TCE lsnned:Eve.atoo ofdifft000 of PCE a TCE through High performance calculated at geomembranes by Di ASTM E-1643 also provides general installation information for vapor retarders. Battista and Rowe, Queens University 8 Feb 2018. 9 The study used to determine diffusion coefficients is titled: Hydrogen Sulfide (H,S) Transport through Simulated Interim Covers with Conventional and Co -Extruded Ethylene -Vinyl Alcohol (EVOH) Geomembranes. W7[o o UNDERSLAB VAPOR IOCk' /Plm7� GAS BARRIER VaporBlock® PIUSTM is a seven -layer co -extruded barrier made using high quality virgin -grade polyethylene and EVOH resins to provide unmatched impact strength as well as superior resistance to gas and moisture transmission. Note: To the best of our knowledge, unless otherwise stated, these are typical property values and are intended as guides only, not as specification limits. Chemical resistance, odor transmission, longevity as well as other performance criteria is not implied or given and actual testing must be performed for applicability in specific applications and/or conditions. RAVEN INDUSTRIES MAKES NO WARRANTIES AS TO THE FITNESS FOR A SPECIFIC USE OR MERCHANTABILITY OF PRODUCTS REFERRED TO, no guarantee of satisfactory results from reliance upon contained information or recommendations and disclaims all liability for resulting loss or damage. Limited Warranty available at www.RavenEFD.com Um RAVEN ENGINEERED FILMS Scan QR Code to download P.O. Box 5107 Sioux Falls, SD 57117-5107 efdsales@ravenind.com currenttechnical data sheets Ph: +1 (605) 335-0174 • TF: +1 (800) 635-3456 www.ravenefd.com via the Raven website. ©2018 RAVEN INDUSTRIES INC. All rights reserved. 061318 EFD 1125 TM \Vc7,, UNDERSLAB VAPOR RETARDER { GAS BARRIER Please Note: Read these instructions thoroughly before installation to ensure proper use of VaporBlock® PIuST". ASTM E 1465, ASTM E 2121 and, ASTM E 1643 also provide valuable information regarding the installation of vapor / gas barriers. When installing this product, contractors shall conform to all applicable local, state and federal regulations and laws pertaining to residential and commercial building construction. • When VaporBlock® PlusT"" gas barrier is used as part of an active control system for radon or other gas, a ventilation system will be required. • If designed asapassive system, itisrecommended to install a ventilation system that could be converted to an active system if needed. Materials List: VaporBlock® PIusTM Vapor / Gas Barrier VaporSealTM* 4" Seaming Tape VaporSealTM* 12" Seaming/Repair Tape Butyl Seal 2-Sided Tape VaporBoot Plus Pipe Boots 12/Box (recommended) VaporBoot Tape (optional) POUR-N-SEALT°" (optional) 1" Foam Weather Stripping (optional) Mako® Screed Supports (optional) F✓s+1.7„� n . r PVC vow P" �wo 4 p"owsm mire ' _y- orri&SW 03ww n S,,Lm f.M-w..J o-aaw rvt q."A' Ihalanrrtf Ga-.w C' irPo'�1 L c r<� I „wm§_V'k' _ wek�al4F"Wla^.' pa.cuf K_3' 3^a /mrwn I AW rr li AfP�nrde fiqM'dry m*lip] C#W pnhnrLL ff-WM 0 MM&%" ham]. M~ rarG*W, � NVO en C4- nx�d oorx b war wr.cal Elements of a moisture/gas-resistant floor system. General illustration only. (Note: This example shows multiple options for waterstop placement. Level and tamp or roll granular base as specified. A base for a gas - reduction system may require a 4" to 6" gas permeable layer of clean coarse aggregate as specified by your architectural or structural drawings after installation of the recommended gas collection system. In this situation, a cushion layer consisting of a non -woven geotextile fabric placed directly under VaporBlock® Plus— will help protect the barrier from damage due to possible sharp coarse aggregate. 1.2. Unroll VaporBlock® Plus'" running the longest dimension parallel with the direction of the pour and pull open all folds to full width. (Fig. 1) 1.3. Lap VaporBlock® Plus'" over the footings and seal with Raven Butyl Seal tape at the footing -wall connection. Prime concrete surfaces, when necessary, and assure they are dry and clean prior to applying Raven Butyl Seal Tape. Apply even and firm pressure with a rubber roller. Overlap joints a minimum of 6" and seal overlap with 4" VaporSealT" Tape. When used as a gas barrier, overlap joints a minimum of 12" and seal in-between overlap with an optional 2-sided Raven Butyl Seal Tape. Then seal with 4" VaporSealT" Tape centered on the overlap seam. (Fig. 2) VaporSeal- 4"Tape l I I� F� 6'�I Fig. 1: VaporBlock® PlusT" Overlapping Roll -out Method Optional Butyl Seal VaporSeaIT" 2-Sided Tape 4"Tape Vapor RelarderAppillw1urn Gas Barrier Applications Fig. 2: VaporBlock® Plus` Overlap Joint Sealing Methods tff12 Page 1 of 4 1.4. Seal around all plumbing, conduit, support columns or other penetrations that come through the VaporBlock® PIusTM membrane. 1.4a. Method 1: Pipes four inches or smaller can be sealed with Raven VaporBoot Plus preformed pipe boots. VaporBoot Plus preformed pipe boots are formed in steps for 1", 2", 3" and 4" PVC pipe or IPS size and are sold in units of 12 per box (Fig. 3 & 5). Pipe boots may also be fabricated from excess VaporBlock® PIusTM membrane (Fig. 4 & 6) and sealed with VaporBoot Tape or VaporSealTM Tape (sold separately). 1.4b. Method 2: To fabricate pipe boots from VaporBlock® PIusTM excess material (see Fig. 4 & 6 for A-F): A) Cut a square large enough to overlap 12" in all directions. B) Mark where to cut opening on the center of the square and cut four to eight slices about 3/8" less than the diameter of the pipe. C) Force the square over the pipe leaving the tightly stretched cut area around the bottom of the pipe with approximately a 1/2" of the boot material running vertically up the pipe. (no more than a 112" of stretched boot material is recommended) D) Once boot is positioned, seal the perimeter to the membrane by applying 2-sided Raven Butyl Seal Tape in between the two layers. Secure boot down firmly over the membrane taking care not to have any large folds or creases. E) Use VaporBoot Tape or VaporSealTM' Tape to secure the boot to the pipe. VaporBoot Tape (option) — fold tape in half lengthwise, remove half of the release liner and wrap around the pipe allowing 1" extra for overlap sealing. Peel off the second half of the release liner and work the tape outward gradually forming a complete seal. VaporSealTM' Tape (option) - Tape completely around pipe overlapping the VaporBlock® PIusTM square to create a tight seal against the pipe. F) Complete the process by taping over the boot perimeter edge with VaporSealTM Tape to create a monolithic membrane between the surface of the slab and gas/moisture sources below and at the slab perimeter. (Fig. 4 & 6) VaporSealTM Preformed Pipe Boot I VaporBoot Plus Performed Boot Raven Butyl Seal 2-sided Tape 1. Cut out one of the preformed boot steps (1" to 4"). 2. Tape the underside boot perimeter with 2-sided Butyl Seal Tape. v 3. Force the boot over pipe and press tape - " " - " " " firmly in place. ` 4. Use VaporSealT"" Tape to secure boot to the pipe. ' S. Tape around entire boot edge with VaporSealTM Tape. Method 1 1. Cut a square of VaporBlock® 2. Cut four to eight slices about 3/8" PIusTM barrier to extend at least less than the diameter of the pipe. 12" from the pipe in all directions. 3. Force over pipe and tape the underside boot perimeter to existing barrier with 2-sided Butyl Seal Tape. 4. Tape over the boot perimeter edge with Amhr VaporSealT" Tape. 5. Use Raven VaporBoot or VaporSealTM Tape and overlap 1" at the seam. . XAV Method 2 Fin_ d Square Material Pipe Boot VaporBoot Flexible Tape VaporSealTM or VaporSealTM 4" Tape 4" Tape 12" JLVaporBIock0,(minimum)usTMterial Raven Butyl Seal 2-sided Tape Page 2 of 4 1.5. Sealing side -by -side multiple penetrations (option 1); A) Cut a patch large enough to overlap 12" in all directions (Fig. 7) of penetrations. B) Mark where to cut openings and cut four to eight slices about 3/8" less than the diameter of the penetration for each. C) Force patch material over penetration to achieve a tight fit and form a lip. D) Once patch is positioned, seal the perimeter to the membrane by applying 2-sided Raven Butyl Seal Tape in-between the two layers. (Fig. 8) E) After applying Raven Butyl Seal Tape between the patch and membrane, tape around each of the penetrations and the patch with VaporSealTM' 4" tape. (Fig. 9) For additional protection apply POUR-N-SEAL" or an acceptable polyurethane elastomeric sealant around the penetrations. (Fig. 10) Cut a patch large enough to overlap 12" in all directions and slide over penetrations (Make openings as tight as possible.) 'A& - .- � R_ - I- C;— After applying Raven Butyl Seal Tape between the patch and membrane, tape around the perimeter of the penetration and the patch with VaporSealTI 4" Tape. rA IRA rAM Option 1 Raven Butyl Seal 2-sided Tape Cis. G Once the overlay patch is positioned, seal the perimeter to the membrane by applying 2-sided Raven Butyl Seal Tape in-between the 11 fm N IV two layers. For additional protection apply POUR-N-SEAL'" or an acceptable polyurethane elastomeric sealant around the penetrations. Fin_ R Fin in Page 3 of 4 Option 2 1.6. POUR-N-SEALTM' method of sealing side -by -side multiple penetrations (option 2); A) Install the vapor barrier as closely as possible to pipe penetrations to minimize the amount of POUR-N-SEAL" necessary to seal around all penetrations. B) Once barrier is in place, remove soil or other particles with a dry cloth or a fine broom to allow for improved adhesion to the POUR-N- SEALT" liquid. C) Create a dam around the penetration area approximately 2" away from the pipe or other vertical penetrations by removing the release liner from the back of a 1" weather stripping foam and adhere to the vapor barrier. Form a complete circle to contain the POUR-N-SEAL" materials (Fig. 11). D) Once mixed, pour contents around the pipe penetrations. If needed, a brush or a flat wooden stick can be used to direct the sealant completely around penetrations creating a complete seal (Fig.12-13). E) DO NOT leave excess POUR-N-SEAL'" in plastic container for longer than the time it takes to pour sealant. Fig. 12 1.7. Proper installation requires all holes and openings are repaired prior to placing concrete. When patching small holes, simply cut a 12" long piece of 12" wide VaporSeaITI tape. Remove release liner and center over the opening. Apply pressure to create a seal (Fig. 14-15). 1.8. When installing VaporBlock® PlusTM' around pipe penetrations, vertical columns, electrical ducts and other obstructions, you will find it necessary to cut it to the nearest outside edge. This cut can be easily sealed with 12" wide VaporSeal- tape, by simply centering it over the cut, 6" on either side. Once the tape is placed correctly, apply pressure to assure a complete seal (Fig. 16). Reminder Note: All holes or penetrations through the membrane will need to be patched with 12" VaporSealTM' Tape. AAL V- 77 Fig. 13 C;- 1 d [:_ 7 Page 4 of 5 2.1. When installing reinforcing steel and utilities, in addition to the placement of concrete, take precaution to protect VaporBlock® Plus—. Carelessness during installation can damage the most puncture —resistant membrane. Sheets of plywood cushioned with geotextile fabric temporarily placed on VaporBlock® Plus'" provide for additional protection in high traffic areas including concrete buggies. 2.2. Use only brick -type or chair -type reinforcing bar supports to protect VaporBlock® Plus" from puncture. 2.3. Avoid driving stakes through VaporBlock® PIUSTM. If this cannot be avoided, each individual hole must be repaired per section 1.7. 2.4. To avoid penetrating VaporBlock® PlusT" when installing screed supports, utilize non -penetrating support, such as the Mako® Screed Support System (Fig. 17). Avoid driving stakes through VaporBlock® PlusT°". If this cannot be avoided, each individual hole must be repaired per figures 14-15. 2.5. If a cushion or blotter layer is required in the design between VaporBlock® PIUSTm and the slab, additional care should be given if sharp crushed rock is used. Washed rock will provide less chance of damage during placement. Care must be taken to protect blotter layer from precipitation before concrete is placed. VaporBlock® Plus— Gas & Moisture Barrier can be identified on site as gold/white in color printed in black ink with following logo and classification listing (Fig. 18) VaporBlockO Plus'"" Gas & Moisture Barrier * Patent Pending C;_ 1 a r;_ 17 Vapor B lock° Plus" IER Fig. 18 Note: To the best of our knowledge, unless otherwise stated, these are typical property values and are intended as guides only, not as specification limits. Chemical resistance, odor transmission, longevity as well as other performance criteria is not implied or given and actual testing must be performed for applicability in specific applications and/or conditions. RAVEN INDUSTRIES MAKES NO WARRANTIES AS TO THE FITNESS FOR A SPECIFIC USE OR MERCHANTABILITY OF PRODUCTS REFERRED TO, no guarantee of satisfactory results from reliance upon contained information or recommendations and disclaims all liability for resulting loss or damage. Limited Warranty available at wwww.RavenEFD.com ENGINEERED FILMS P.O. Box 5107 Sioux Falls, SD 57117-5107 Ph: +1 (605) 335-0174 • TF: +1 (800) 635-3456 efdsales@ravenind.com www.ravenefd.com © Raven 2016. All Rights Reserved. Page 5 of 5 020316 EFD 1127 ACCESSORIES SEAMING TAPES & OTHER ACCESSORIES FOR PLASTIC SHEETING From tie -down fasteners to field seaming tape, Raven Industries has the accessories you need to maximize your film's versatility and minimize installation time on the job. VaporBondT"" Tape (TV134) VaporBondT" Tape is a white single -sided tape that combines a heavy-duty, weather - resistant polyethylene backing with an aggressive rubber adhesive. VaporBondT" Tape offers excellent seaming capabilities for our materials with an "Easy Tear' feature to reduce installation time. TVB4 has a WVTR of 0.18 perms per ASTM D3833. Typical applications include vapor retarders, covers and liners. Available in 4" x 210' roll. R25B Tape (R25B) R25B Tape is a single -sided aggressive synthetic elastomeric adhesive that bonds instantly to properly prepared polyethylene and polypropylene. The black polymer backing and adhesive is specially formulated to provide years of performance even in direct sunlight. A poly release liner provides for ease of installation. Available in 4" x 100' roll. VaporSeaIT' Tape (TVSP4/TVSP12) Butyl Seal Tape (TP2BR / TP6BR) VaporSeaIT" Tape is a patent pending single- Butyl Seal is a double -sided reinforced sided 7-layer gas barrier tape with a release aggressive black butyl rubber tape used to liner for ease of installation. The backing join panels of polyethylene and polypropylene contains a layer of highly impermeable together by overlapping the edges and EVOH designed to block migration of radon, applying Butyl Seal in between. It is also methane, and VOC's. An aggressive acrylic used to adhere to concrete walls and footings adhesive provides outstanding adhesion to when properly prepared. Butyl Seal is non - polyethylene over a wide temperature range. hardening and flexible. as Typical uses include joining, repairing and 0i Available in 2" x 50' and 6" x 50' rolls. sealing gas/moisture barriers. Available in 4" x 160' and 12" x 50' rolls. VaporBoot" Tape (TBOOT) POUR-N-SEAU- (PNS1G) VaporBootTm Tape is a single -sided elastomeric POUR-N-SEALT" is a gray two part epoxy butyl tape used to complete pipe boot used to seal around multi -pipe penetrations installations (sealing the boot to the pipe). in areas where pipe boots are not practical, The 100% stretchable butyl adhesive features when installing underslab barriers.The POUR - excellent adhesion values and 3-D stretching AV N-SEALT"" system installation guide references that can be easily molded to multiple surfaces " a 1" x 25 lineal feet adhesive -backed foam to without any creases and folds. l form a dam around multi -pipe penetrations Available in 2" x 16.4' roll. to contain POUR-N-SEALT' during the setting process. The 1 " x 25 ft. adhesive -backed foam is sold seperately as FOAM25. VaporBootT"' System (VBOOT) The VaporBootT" System is designed to assist in securing pipe and other penetrations that run vertically through the vapor retarder material. The VaporBoot- System offers a quick solution and is delivered to the jobsite in a complete package. VaporBoots are produced from high performance VaporBlock® material. Package Contents: 25 - VaporBoots (18" x 18", w/precut center marker) 1 - roll of VaporBoot Tape VaporBootT"' Plus Preformed Pipe Boots (VBPBT) VaporBoot- Plus Preformed Pipe Boots are produced from heavy 40 mil co -extruded polyethylene and barrier resins for excellent strength and durability. The preformed boots are stepped to fit 1" to 4" wide pipe penetrations. VaporBoots' Plus Preformed Pipe Boots are available in quantities of 12 per box. © 2021 RAVEN INDUSTRIES INC. All rights reserved. ACCESSORIES Dura+Skrim® Reinforced Sandbags Dura*Skrim® reinforced sandbags are used to secure large covers and liners to prevent wind damage. Sandbags are produced with strong Dura*Skrim® 8 & 12 mil reinforced polyethylene. These 15" wide x 24" long bags are designed to hold 35 lbs. Sandbags are also available 3 ' in other Raven reinforced materials with minimum order requirements. 11.8" Cable Ties are also available. Tie -Down Buttons (BUTI) & Tarp Grabbers (BUTEZ) ®Tie -Down Buttons and Tarp Grabbers help keep plastic sheeting securely in place. Tie -Down Buttons are designed to eliminate traditional grommets in OILsheeting up to 10 mil thick and are reusable plastic fittings that are easy to install in any position. Tarp Grabbers are up to 4 times stronger than a brass grommet and are typically used in heavier plastic sheeting from 10 mil to 30 mil thick. Great for equipment covers, large storage covers and truck tarps. BACKING ADHESIVE COLOR TYPE SIZE ROLLS PER CASE WEIGHT PER CASE ADHESION VALUES PERMS SERVICE TEMP. MIN. APPLICATION TEMP. IDEAL STORAGE TEMP. / HUMIDITY 6.7 mil Polyethylene 3.3 mil Rubber Based Pressure -Sensitive White Single Sided 4" x 210' 12 45 Ibs 35 oz. / in. (to steel) 0.081 g/(24h*100 in 2) -40* F to +180' F 50° F 7 mil EVOH/LLDPE 2 mil Acrylic Adhesive Pressure -Sensitive Silver Single Sided 4" x 160' / 12" x 50' 12/4 50 Ibs / 18 Ibs 80 oz. / in. (to steel) 0.014 g/(24h*100 in 2) -40° F to +190* F 50° F 70* F w/ 40-50 % 60*-80* F w/ 40-60 % Dura-CIipT1 (CLIP11) Raven Welding Rod 30 mil EPDM 20 mil Butyl Rubber Black Single Sided 2" x 16.4' 64 45 Ibs 145 oz. / in. (to steel) N/A +14° F to +122* F 14° F 70° F w/ 70 % These full size clips are 11" long and fit most commercial scaffolding. Dura- Clip' will securely fasten your poly sheeting to scaffolding, reducing wind whip and increasing the life of your enclosure. The Dura-ClipT°" is normally placed about every Tonto the enclosure. Raven Welding Rod is used for field seaming, repairs and detail work, such as installing pipe boots. Packaged in 25 lb spools, it is available in 4mm and 5mm sizes to fit most brands of extrusion guns. Raven Welding Rod is made from a thermally UV stabilized LLDPE resin and is available in both black and white to correspond with the color of geomembranes being utilized. 8 mil Multi -Polymer 17 mil Synthetic Elastomeric Black Single Sided 4" x 100' 6 33 Ibs 144 oz. / in. (to steel) <0.005 g/(24h*100 in 2) +20' F to +180* F 35° F 70° F w/ 40-50 % N/A 40 mil Butyl Rubber Black Double Sided 2" x 50'/ 6" x 50' 16/4 47 Ibs / 20 Ibs 88 oz. / in. (to steel) 0.82 g/(24h*100 in 2) 0° F to +170* F 35° F 70* F w/ 40-50 % 'I Note: To the best of our knowledge, unless otherwise stated, these are typical property values and are intended as guides only, not as specification limits. Chemical resistance, odor transmission, longevity as well as other performance criteria is not implied or given and actual testing must be performed for applicability in specific applications and/or conditions. RAVEN INDUSTRIES MAKES NO WARRANTIES AS TO THE FITNESS FOR A SPECIFIC USE OR MERCHANTABILITY OF PRODUCTS REFERRED TO, no guarantee of satisfactory results from reliance upon contained information or recommendations and disclaims all liability for resulting loss or damage. Limited Warranty available at www.RavenEFD.com IJ?Xd&f4M RAVEN ENGINEERED FILMS Scan QR Code to download P.O. Box 5107 Sioux Falls, SD 57117-5107 efdsales@ravenind.com current technical data sheets Ph: +1 (605) 335-0174 • TF: +1 (800) 635-3456 www.ravenefd.com via the Raven website. 0 2021 RAVEN INDUSTRIES INC. All rights reserved. 012021 EFD 1103 IDENTIFICATION Product Name Recommended use of the chemical and restrictions on use Identified uses Restrictions on use Company Identification Customer Information Number Emergency Telephone Number SAFETY DATA SHEET 5450-66 5450-66 Pressure Sensitive Adhesive See product data sheet. Raven Industries, Inc — Engineered Films P.O. Box 5107 Sioux Falls, SD 57117-5107 (800) 635-3456 (Monday— Friday 8:00 am to 5:00 pm) http://ravenefd.com/products/accessories CHEMTREC Number Within USA and Canada: +1 (800) 635-3456 Outside USA and Canada: +1 (605) 335-0174 Issue Date March 11, 2016 Supersedes Date This is the first issue. Safety Data Sheet prepared in accordance with OSHA's Hazard Communication Standard (29 CFR 1910.1200) and the Globally Harmonized System of Classification and Labelling of Chemicals (GHS) HAZARD IDENTIFICATION Hazard Classification This product is classified as not hazardous in accordance with the Globally Harmonized System of Classification and Labelling (GHS). Label Elements Hazard Symbols None Signal Word: None Hazard Statements None Precautionary Statements Prevention None Response None Storage None Disposal None Other Hazards None Revision Date: March 11, 2016 Page 1 of 6 Raven Industries, Inc Safety Data Sheet 5450-66 2. HAZARD IDENTIFICATION Specific Concentration Limits The values listed below represent the percentages of ingredients of unknown toxicity. Acute oral toxicity <10% Acute dermal toxicity <10% Acute inhalation toxicity <10% Acute aquatic toxicity >90% 3. COMPOSITION/INFORMATION ON INGREDIENTS Synonyms: This product is a mixture. Component CAS Number Concentration Polymers and resins N.A. 10 - 20% 4. FIRST- AID MEASURES Description of necessary first -aid measures Eyes Immediately flood the eye with plenty of water. Obtain medical attention if symptoms persist. Skin Wash skin thoroughly with soap and water. Obtain medical attention if symptoms persist. Ingestion Obtain medical attention immediately. Inhalation Remove person to fresh air if symptoms occur. Seek medical attention if symptoms persist. Most important symptoms/effects, acute and delayed Aside from the information found under Description of necessary first aid measures (above) and Indication of immediate medical attention and special treatment needed, no additional symptoms and effects are anticipated. Indication of immediate medical attention and special treatment needed Notes to Physicians Treat symptomatically. 5. FIRE - FIGHTING MEASURES Suitable Extinguishing Media Water spray, carbon dioxide and dry chemical. Specific hazards arising from the chemical May release hazardous vapors during a fire. Special Protective Actions for Fire -Fighters Wear full protective clothing and self-contained breathing apparatus. 6. ACCIDENTAL RELEASE MEASURES Personal precautions, protective equipment and emergency procedures Wear appropriate protective clothing. Revision Date: March 11, 2016 Page 2 of 6 Raven Industries, Inc Safety Data Sheet 5450-66 6. ACCIDENTAL RELEASE MEASURES Environmental Precautions Prevent the material from entering drains or watercourses. Methods and materials for containment and cleaning up Pick up and transfer into suitable containers for recovery or disposal. 7. HANDLING AND STORAGE Precautions for safe handling Wear appropriate protective clothing. Conditions for safe storage Store away from sources of heat or ignition. Storage area should be: cool - dry - well ventilated - out of direct sunlight - away from sources of ignition(heat, sparks, flames, pilot lights) - away from incompatible materials (see Section 10) 8. EXPOSURE CONTROLS/PERSONAL PROTECTION Control parameters Exposure limits are listed below, if they exist. Appropriate engineering controls No specific measures necessary. Good general room ventilation is expected to be adequate to control airborne levels. Individual protection measures Respiratory Protection Not required under normal conditions of use. Skin Protection Gloves Eye/Face Protection Safety glasses Body Protection Normal work wear. 9. PHYSICAL AND CHEMICAL PROPERTIES Appearance Physical State Color Odor Odor Threshold pH Density (g/yd2) Boiling Range/Point (°C/F) Melting Point (°C/F) Flash Point (PMCC) (°C/F) Vapor Pressure Evaporation Rate (BuAc=1) Solubility in Water Solid: Pressure sensitive adhesive coated on a polymer film protected by a release liner Black/Silver None No data available Not applicable No data available Not applicable Not applicable Not applicable Not applicable Not applicable Negligible Revision Date: March 11, 2016 Page 3 of 6 Raven Industries, Inc 9. PHYSICAL AND CHEMICAL PROPERTIES Vapor Density (Air = 1) Not applicable VOC (%) Negligible Partition coefficient (n- Not applicable octanol/water) Viscosity Not applicable Auto -ignition Temperature No data available Decomposition Temperature No data available Upper explosive limit No data available Lower explosive limit No data available Flammability (solid, gas) No data available 10. STABILITY AND REACTIVITY 11 Reactivity Data is not available. Chemical Stability Stable under normal conditions. Possibility of hazardous reactions Hazardous polymerization will not occur. Conditions to Avoid Heat - high temperatures Incompatible Materials Acids — bases — oxidizers Hazardous Decomposition Products Oxides of carbon — asphyxiants Safety Data Sheet 5450-66 TOXICOLOGICAL INFORMATION Acute Toxicity Available data indicates this product is not expected to be acutely toxic. Specific Target Organ Toxicity (STOT) — single exposure Available data indicates this product is not expected to cause target organ effects after a single exposure. Specific Target Organ Toxicity (STOT) — repeat exposure Available data indicates this product is not expected to cause target organ effects after repeated exposure. Serious Eye damage/Irritation Available data indicates this product is not expected to cause eye irritation. Skin Corrosion/Irritation Available data indicates this product is not expected to cause skin irritation. Respiratory or Skin Sensitization No relevant studies identified. Revision Date: March 11, 2016 Page 4 of 6 Raven Industries, Inc Safety Data Sheet 5450-66 11. TOXICOLOGICAL INFORMATION Carcinogenicity Not considered carcinogenic by NTP, IARC, and OSHA. Germ Cell Mutagenicity Available data indicates this product is not expected to be mutagenic. Reproductive Toxicity Available data indicates this product is not expected to cause reproductive toxicity or birth defects Aspiration Hazard Not an aspiration hazard. 12. ECOLOGICAL INFORMATION Ecotoxicity No relevant studies identified. Mobility in soil No relevant studies identified. Persistence/Degradability No relevant studies identified. Bioaccumulative Potential No relevant studies identified. Other adverse effects No relevant studies identified. 13. DISPOSAL CONSIDERATIONS Disposal Methods Dispose of in accordance with all applicable local and national regulations. 14. TRANSPORT INFORMATION DOT CFR 172.101 Data Not Regulated UN Proper Shipping Name Not Regulated UN Class None UN Number None UN Packaging Group None Classification for AIR Consult current IATA Regulations prior to shipping by air. Transportation (IATA) Environmental Hazards Not a marine pollutant 15. REGULATORY INFORMATION United States TSCA Inventory All components of this product are in compliance or are exempt from inventory listing requirements of the US Toxic Substance Control Act (TSCA) Chemical Substance Inventory. Revision Date: March 11, 2016 Page 5 of 6 Raven Industries, Inc 15. REGULATORY INFORMATION Safety Data Sheet 5450-66 Canada DSL Inventory All ingredients in this product are listed on or are exempt from listing on the Domestic Substance List (DSL). California Proposition 65 This product contains materials which the State of California has found to cause cancer, birth defects or other reproductive harm. SARA Title III Sect. 3111312 Categorization None SARA Title III Sect. 313 This product contains the following chemicals that are listed in Section 313 at or above de minimis concentrations: None 16. OTHER INFORMATION Legend ACGIH: American Conference of Governmental Industrial Hygienists CAS: Chemical Abstracts Service ECHA: European Chemicals Agency IARC: International Agency for Research on Cancer N/A: Denotes no applicable information found or available NTP: National Toxicology Program OSHA: Occupational Safety and Health Administration PEL: Permissible Exposure Limit SDS: Safety Data Sheet STEL: Short Term Exposure Limit TLV: Threshold Limit Value VOC: Volatile Organic Compounds Revision Date: March 11, 2016 Replaces: This is the first issue. Changes made: Not applicable. Information Source and References This SDS is prepared by Hazard Communication Specialists based on information provided by internal company references. Prepared By: EnviroNet LLC The information and recommendations presented in this SDS are based on sources believed to be accurate. Raven Industries, Inc assumes no liability for the accuracy or completeness of this information. It is the user's responsibility to determine the suitability of the material for their particular purposes. In particular, we make NO WARRANTY OF MERCHANTABILITY OR ANY OTHER WARRANTY, EXPRESS OR IMPLIED, with respect to such information, and we assume no liability resulting from its use. Users should ensure that any use or disposal of the material is in accordance with applicable Federal, State, and local laws and regulations. Revision Date: March 11, 2016 Page 6 of 6 QUICK IDENTIFIER (In Plant Common Name) MATERIAL SAFETY DATA Butyl Seal Tape TP2BR Manufacturer's Emergency 800-635-3456 Name RAVEN INDUSTRIES INC. Telephone Numbers 605-335-0174 Address Other P.O. Box 5107 Information 1813 "B" Avenue Sioux Falls, SD 57117 Sioux Falls, SD 57104 Signature of Person Date Responsible for Preparation o� Prepared September 30, 2005 Common Name: (Used on Label) Butyl Seal Tape CAS N/A (Trade Name Synonyms) TP2BR Number(s) Chemical Chemical Name Butyl Rubber Adheasive Family Isobutylene-Isoprene copolymers Formula NA Principal Hazardous Component(s) - Chemical and Common Nan none Known Boiling Point Not Applicable (N/A) Threshold Limit Value (units) Specific N/A Vapor N/A Gravity Pressure, mmHg Percent Volatile N/A Vapor N/A Evaporation N/A by Volume (%) Density Rate Solubility in Insoluble in Water Reactivity N/A Water in water Appearance Black, odorless tape, paper release liner and Odor Flash N/A Flammability Limits Lower Upper Auto Ignition N/A Point in Air, by Volume (%) N/A N/A Temperature Extinguisher Media Use water spray, dry chemical or carbon dioxide Special Fire Fighting Proced. Fire fighters should wear a self-contained breathing apparatus when there is a possibility of exposure to smoke, fumes or hazardous decomposition products. If possible, water should be applied as a spray from a fogging nozzle since this material is a surface burning material. Unusual Fire and Explosion Hazards None known Incompatibility None Known (Materials to Avoid) Hazardous None Known Decomposition Products Hazardous May Occur Conditions N/A Polymerization Will not Occur X to Avoid Page 2 Part Number: TP2BR Threshold N/A Limit Value Signs and Symptoms of Exposure 1. Acute N/A 2. Chronic Not Determined Overexposure Overexposure Medical Conditions Generally There is a risk of inflammation on the skin for long term continuious contact. Aggravated by Exposure Chemical Listed as Carcinogen National Toxicology Not L.A.R.C. Not OSHA Not or Potential Carcinogen Program Listed Monographs Listed Listed OSHA Permissible None ACGIH Threshold None Other Expos. None Exposure Limit Limit Value Limit Used Emergency and N/A First Aid Procedures 1. Inhalation N/A 2. Eyes N/A 3. Skin Avoid prolonged or repeated skin contact 4. Ingestion N/A Section 6 - SPECIAL PROTECTION INFORMATION Respiratory Protection (Specify Type) N/A Ventilation Local Exhaust Mechanical (General) Special Other N/A N/A N/A N/A N/A Protective None Eye None Gloves Protection Other Protective N/A Clothing or Equipment Section 7 - SPECIAL PRECAUTIONS PROCEDURES Precautions to be Taken in Handling and Storage Store in a cool, dry area. Other Precautions None Steps to be Taken in Case Material is Released or Spilled N/A Waste Disposal Methods Observe all federal, state and local laws concerning health and environment. IMPORTANT - Do not leave blank spaces. If information is unavailable, unknown or does not apply, so indicate VAPORBOOT PLUS p/n: VBPBT package contents: 12-each VaporBoot Plus Pipe Boots EPS1Check your pipe size and cut the hole size required in the prefabricated VaporBoot Plus Boot. The formed steps are for 1", 2", 3" and 4" PVC pipe or IPS size. This will allow the pipe to fit tightly in the hole and the VaporSeal- Tap (sold separately) to stretch tightly around the pipe. STEP STEP I Turn the boot over and apply 2-sided Raven Butyl Seal Tape (sold separately) to the perimeter of the bottom side. Once the entire perimeter is taped; remove all the release liner. Force the VaporBoot Plus Boot over the penetration and apply pressure to the taped area around the entire perimeter to secure in place. INSTALLATION INSTRUCTIONS Peel off the paper release liner and tape the entire perimeter with VaporSealTm Tape. *rjTo finish boot installation take VaporSeal— Tape and wrap tightly around to seal the boot to the penetration. VaporSeal�"� I I I I VaporBoot Plus Preformed Boot Butyl Seal 2-Sided Tape Note: To the best of our knowledge, unless otherwise stated, these are typical property values and are intended as guides only, not as specification limits. Chemical resistance, odor transmission, longevity as well as other performance criteria is not implied or given and actual testing must be performed for applicability in specific applications and/or conditions. RAVEN INDUSTRIES MAKES NO WARRANTIES AS TO THE FITNESS FOR A SPECIFIC USE OR MERCHANTABILITY OF PRODUCTS REFERRED TO, no guarantee of satisfactory results from reliance upon contained information or recommendations and disclaims all liability for resulting loss or damage. Limited Warranty available at wwww.RavenEFD.com ENGINEERED FILMS P.O. Box 5107 Sioux Falls, SD 57117-5107 Ph: +1 (605) 335-0174 • TF: +1 (800) 635-3456 efdsales@ravenind.com www.ravenefd.com 020416 EFD 1480 POUR-N-SEAL TM HIGH -STRENGTH EPDXY BONDING ADHESIVE PRODUCT NAME POUR-N-SEAL` (P/N: PNS1G) MANUFACTURER Raven Industries, Inc. 821 W. Algonquin Street Sioux Falls, SD 57104 PRODUCT DESCRIPTION POUR-N-SEALT°' is a gray two-part medium viscosity high strength epoxy used to seal around multiple pipe penetrations in tight areas where pipe boots are not practical, when installing VaporBlocks moisture and gas barriers. TECHNICAL DATA Applicable Standards: • ASTM (American Society for Testing and Materials) • ASTM C881 Standard Specification for Epoxy -Resin -Base Bonding Systems for Concrete • ASTM D695 Standard Test Method for Compressive Properties of Rigid Plastics • ASTM D638 Standard Test Method for Tensile Properties of Plastics • ASTM C882 Standard Test method for Bond Strength of Epoxy -Resin Systems Used with Concrete by Slant Shear • ASTM Standard Test Method for Deflection Temperature of Plastics Under Flexural Load in the Edgewise Position • ASTM D570 Standard Test Method for Water Absorption of Plastics MATERIAL PREPARATION Store material overnight to precondition at a temperature between 70° F to 80' F prior to use. INSTALLATION 1. POUR-N-SEAUm is used to seal moisture and gas barriers to multiple pipe penetrations in situations where pipe boots are not able to be installed due to the tight concentration of the pipe penetrations. 2. Install the vapor/gas barrier as close as possible to the penetrations by making a small opening. Effort should be given to minimize large gaps in the barrier next to the penetrations, this will also reduce the amount of POUR-N-SEALTm necessary to complete an acceptable seal. 3. To help concentrate the sealant around the pipe penetration, a dam can be formed around the pipe grouping with an adhesive backed weather stripping foam. One gallon covers 80 sq. ft. at a thickness of 20 mils. 4. Only mix the amount of material that can be used within the pot life of the epoxy, approximately 36 minutes at 73' F. Premix each component prior to combining. Pour 'A' and "B" components together and thoroughly mix using a low speed drill with a mixing paddle. Scrape the sides and bottom to assure a consistent blend. 5. Once mixed, pour contents around the pipe penetrations, if needed a brush or flat wooden stick can be used to direct the sealant completely around all penetrations and overlap the moisture/gas barrier to form a continuous seal. Avoid Contact with skin (see SDS for complete safety precautions). Immediately dispose of any remaining mixed POUR-N-SEAL'" epoxy left in th container to avoid excessive heat buildup. 6. Depending upon the temperature. POUR- N-SEAL should be tack free in approximately 5 hours. STORAGE/SHELF LIFE Store in dry environment between 401 F and 800 F (40 C-270 Q. Do not allow product to freeze. Shelf Life: 12 months from date of manufacture in unopened containers properly stored. Protect from moisture. AVAILABILITY Please call your local construction supply distributor for availability of POUR-N-SEALTI or call our toll free number at 800-635-3456. SAFETY POUR-N-SEALT°" "B" component contains amines and may cause severe burns upon skin contact for any length of time. Use OSHA -approved personal protective equipment (PPE), including safety glasses, gloves and confined space equipment/ POUR•N•SEAL procedures if applicable. Avoid skin contact; do not ingest. See SDS for complete safety precautions. For professional use only. WARRANTY Raven Industries, Inc. warrants its products to be free from manufacturing defects and that products meet the published characteristics when tested in accordance with ASTM standards. No other warranties by Raven Industries, Inc. are expressed or implied, including no warranty of merchantability or fitness for a particular purpose. Raven Industries, Inc. will not be liable for damages of any sort resulting from any claimed breach of warranty. Raven Industries' liability under this warranty is limited to replacement of material or refund of sales price of the material. There are no warranties on any product that has exceeded the "shelf life" or "expiration date" printed on the package label. TEST DATA Compressive Strength ASTM D-695 11,070 Compressive Modulus of Elasticity ASTM D-695 370,000 Tensile Strength ASTM D-638 3,480 Tensile Modulus of Elasticity ASTM D-638 429,000 Tensile Elongation ASTM D-638 1.2 % Bond Strength (dry cure) - 2 day ASTM C-882 3,390 Bond Strength (dry cure) - 14 day ASTM C-882 3,600 Shore Hardness D scale 86 D Heat Deflection ASTM D-648 120' F (49' C) Water Absorption ASTM D-570 < 1 % ENGINEERED FILMS P.O. Box 5107 Sioux Falls, SD 57117-5107 Ph: +1 (605) 335-0174 • TF: +1 (800) 635-3456 efdsales@ravenind.com www.ravenefd.com 012116 EFD 1319 POUR-N-SEAL TM p/n: PNS1G INSTALLATION INSTRUCTIONS NOTE: Store in dry environment between 400 F and 801 F (40 C-270 Q. Do not allow product to freeze. Prior to use, keep overnight to precondition at a temperature between 70' F to 80' F. Protect from moisture. STEP I]] Prepare penetration areas that require sealing by cutting VaporBlock8 barrier as close to the penetration(s) as possible. Effort should be given to minimize large gaps, this will also reduce the amount of POUR-N-SEALTM' necessary to complete an acceptable seal. To help concentrate the sealant around the pipe penetration, a dam can be formed 2" away from the pipe grouping with an adhesive backed 1" weather stripping foam. Complete the preparation of all areas requiring sealant to maximize the pot life of POUR-N-SEALTM' epoxy, prior to mixing the two components. Once mixed, pour contents around the pipe penetrations, if needed a brush or flat wooden STEP stick can be used to direct the sealant completely around all penetrations and overlap the moisture/gas barrier to form a continuous seal. Immediately dispose of any remaining mixed POUR-N-SEAL'" epoxy left in the container to avoid excessive heat buildup. Depending upon the temperature, POUR-N-SEAL'" should be tack free in approximately 5 hours. F Seal any cut openings that were required to install VaporBlock® around the penetrations with 12" wide VaporSeal" gas / moisture barrier tape or by overlaying a piece of VaporBlock® centered over the cut and taped around the perimeter. Clean the area to be sealed by removing any debris. Avoid Contact with skin by wearing protective A gloves and clothing. Only mix the amount of material that can be used within the pot life of STEP the epoxy, approximately 36 minutes at 73° F. Premix each component prior to combining. Pour "A" and "B" components together and thoroughly mix using a low speed drill with a mixing paddle. Scrape the sides and bottom to assure a consistent blend. If not thoroughly mixed, the set time will be greatly extended. Penetrations should be sealed, once filled, covering the entire surface inside the foam dam. Allow to cure prior to pouring concrete to assure a continuous seal without displacing the POUR-N-SEALS" epoxy. Leave foam dam in place. See SDS for complete safety precautions. For professional use only. Note: To the best of our knowledge, unless otherwise stated, these are typical property values and are intended as guides only, not as specification limits. Chemical resistance, odor transmission, longevity aswelI as otherperformancecriteria is not implied orgiven and actual testing must be performed forapplicability in specific applications and/orconditions. RAVEN INDUSTRIES MAKES NO WARRANTIES AS TO THE FITNESS FOR A SPECIFIC USE OR MERCHANTABILITY OF PRODUCTS REFERRED TO, no guarantee of satisfactory results from reliance upon contained information or recommendations and disclaims all liability for resulting loss or damage. Limited Warranty available at wwww.RavenEFD.com ENGINEERED FILMS P.O. Box 5107 Sioux Falls, SD 57117-5107 Ph: +1 (605) 335-0174 • TF: +1 (800) 635-3456 efdsales@ravenind.com www.ravenefd.com 020516 EFD 1322 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 1. Identification 1.1. Product identifier Product Identity POUR-N-SEAL Component A Alternate Names Pour-N-Seal Component A 1.2. Relevant identified uses of the substance or mixture and uses advised against Intended use See Technical Data Sheet. Application Method See Technical Data Sheet. 1.3. Details of the supplier of the safety data sheet Company Name Company Contacts Raven Industries, Inc. — Engineered Films Division 821 W. Algonquin Street Sioux Falls, SD 57104 Raven Industries INC. Direct: (605) 335-0250 Cindy.heppler@ravenind.com 24 hour Emergency Telephone No. (605) 335-0250 If immediate assistance is not obtained, please call 911. 2. Hazard(s) identification 2.1. Classification of the substance or mixture Skin Irrit. 2;H315 Causes skin irritation. Eye Irrit. 2;H319 Causes serious eye irritation. Skin Sens. 1;H317 May cause an allergic skin reaction. Muta. 2;H341 Suspected of causing genetic defects. Aquatic Chronic 2;H411 Toxic to aquatic life with long lasting effects. 2.2. Label elements Using the Toxicity Data listed in section 11 and 12 the product is labeled as follows. Page 1 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 <i><4><iL Warning H315 Causes skin irritation. H317 May cause an allergic skin reaction. H319 Causes serious eye irritation. H341 Suspected of causing genetic defects. H411 Toxic to aquatic life with long lasting effects. [Prevention]: P201 Obtain special instructions before use. P202 Do not handle until all safety precautions have been read and understood. P261 Avoid breathing dust / fume / gas / mist / vapors / spray. P264 Wash thoroughly after handling. P272 Contaminated work clothing should not be allowed out of the workplace. P273 Avoid release to the environment. P280 Wear protective gloves / eye protection / face protection. [Response]: P302+352 IF ON SKIN: Wash with plenty of soap and water. P305+351+338 IF IN EYES: Rinse continuously with water for several minutes. Remove contact lenses if present and easy to do - continue rinsing. P308+313 IF exposed or concerned: Get medical advice / attention. P321 Specific treatment (see information on this label). P333+313 If skin irritation or a rash occurs: Get medical advice / attention. P337+313 If eye irritation persists: Get medical advice / attention. P362 Take off contaminated clothing and wash before reuse. P363 Wash contaminated clothing before reuse. P391 Collect spillage. [Storage]: P405 Store locked up. [Disposal]: P501 Dispose of contents / container in accordance with local / national regulations. Page 2 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 3. Composition/information on ingredients This product contains the following substances that present a hazard within the meaning of the relevant State and Federal Hazardous Substances regulations. Ingredient/Chemical Designations Diglycidyl ether of bisphenol A CAS Number: 0025068-38-6 Bisphenol F epoxy resin Weight % 50 - 75 25 - 50 GHS Classification Eye Irrit. 2;H319 Skin Irrit. 2;H315 Skin Sens. 1;H317 Aquatic Chronic 2;H411 Skin Irrit. 2;H315 Notes [1] [1] CAS Number: 0028064-14-4 Eye Irrit. 2;H319 Skin Sens. 1;H317 Aquatic Chronic 2;H411 Oxirane, (butoxymethyl)- 1.0 - 10 Flam. Liq. 3;H226 [1][2] CAS Number: 0002426-08-6 Muta. 2;H341 Acute Tox. 4;H332 Acute Tox. 4;H302 STOT SE 3;H335 Skin Sens. 1;H317 Aquatic Chronic 3;H412 In accordance with paragraph (i) of §1910.1200, the specific chemical identity and/or exact percentage (concentration) of composition has been withheld as a trade secret. [1] Substance classified with a health or environmental hazard. [2] Substance with a workplace exposure limit. [3] PBT-substance or vPvB-substance. *The full texts of the phrases are shown in Section 16. 4. First aid measures 4.1. Description of first aid measures General In all cases of doubt, or when symptoms persist, seek medical attention. Never give anything by mouth to an unconscious person. Inhalation Remove to fresh air, keep patient warm and at rest. If breathing is irregular or stopped, give artificial respiration. If unconscious place in the recovery position and obtain immediate medical attention. Give nothing by mouth. Eyes Irrigate copiously with clean water for at least 15 minutes, holding the eyelids apart and seek medical attention. Skin Immediately take off all contaminated clothing. For skin contact, wash immediately with soap and water. If irritation persists, get medical attention. Ingestion If swallowed obtain immediate medical attention. Keep at rest. Do NOT induce vomiting. 4.2. Most important symptoms and effects, both acute and delayed Overview Eyes: Irritating to the eyes Skin: May cause skin irritation; potential sensitizer. Skin inflammation is characterized by itching, scaling and reddening. Page 3 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 Inhalation: May cause lung irritation; potential sensitizer Ingestion: Swallowing small amounts of this material during normal handling is unlikely and is not likely to cause harmful effects. Swallowing large amounts may be harmful. Reproductive or genetic defect hazard. See section 2 for further details. Eyes Causes serious eye irritation. 5. Fire -fighting measures 5.1. Extinguishing media Water fog, Carbon Dioxide, Dry Chemical 5.2. Special hazards arising from the substance or mixture Hazardous decomposition: High heat and fire may produce carbon dioxide, carbon monoxide, and oxides of nitrogen. Avoid breathing dust / fume / gas / mist / vapors / spray. 5.3. Advice for fire-fighters Wear full protective clothing, including helmet, self-contained positive pressure or pressure demand breathing apparatus, protective clothing and face mask. ERG Guide No. ---- 6. Accidental release measures 6.1. Personal precautions, protective equipment and emergency procedures Put on appropriate personal protective equipment (see section 8). 6.2. Environmental precautions Do not allow spills to enter drains or waterways. Use good personal hygiene practices. Wash hands before eating, drinking, smoking or using toilet. Promptly remove soiled clothing and wash thoroughly before reuse. 6.3. Methods and material for containment and cleaning up For major spills call Raven Industries (1-605-336-2750). Clean up should only be performed by trained personnel. People dealing with major spillages should wear full protective clothing including appropriate respiratory protection. Evacuate the area. Prevent further leakage, spillage or entry into drains. Page 4 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 7. Handling and storage 7.1. Precautions for safe handling Avoid breathing aerosols, mists and vapors. Avoid contact with skin and eyes. See section 2 for further details. - [Prevention]: 7.2. Conditions for safe storage, including any incompatibilities Handle containers carefully to prevent damage and spillage. Incompatible materials: Water, amines, strong bases, alcohols, metal compounds and surface-active materials If container is exposed to high heat, it can be pressurized and possibly rupture explosively. Keep the container tightly closed and in a cool, well -ventilated place. See section 2 for further details. - [Storage]: 7.3. Specific end use(s) No data available. 8. Exposure controls and personal protection 8.1. Control parameters Exposure CAS No. Ingredient Source Value 0002426-08-6 Oxirane, (butoxymethyl)- OSHA JTWA 50 ppm (270 mg/m3) ACGIH TWA: 3 ppm Skin, S, R, Revised 2005, NIOSH IC 5.6 ppm (30 mg/m3) [15-minute] Supplier No Established Limit 0025068-38-6 ether of bisphenol A OSHA INo Established Limit IDiglycidyl ACGIH INo Established Limit NIOSH INo Established Limit Supplier INo Established Limit 0028064-14-4 Bisphenol F epoxy resin OSHA INo Established Limit ACGIH No Established Limit NIOSH INo Established Limit Supplier INo Established Limit Page 5 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 Carcinogen Data CAS No. Ingredient Source F Value 0002426-08-6 Oxirane, (butoxymethyl)- OSHA Select Carcinogen: No NTP Known: No; Suspected: No IARC IGroup 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 0025068-38-6 ridyl ether of bisphenol A OSHA Select Carcinogen: No NTP Known: No; Suspected: No IARC IGroup 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 0028064-14-4 Bisphenol F epoxy resin OSHA Select Carcinogen: No NTP Known: No; Suspected: No IARC IGroup 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 8.2. Exposure controls Respiratory When the product is sprayed or heated without adequate ventilation, an approved MSHA/NIOSH positive -pressure, supplied -air respirator may be required. Eyes Wear safety glasses; chemical goggles (if splashing is possible). Skin Protective clothing should be selected. Gloves - neoprene, nitrile rubber, butyl rubber. Thin latex disposable gloves should be avoided for repeated or long-term use. Engineering Controls Provide adequate ventilation. Where reasonably practicable this should be achieved by the use of local exhaust ventilation and good general extraction. If these are not sufficient to maintain concentrations of particulates and any vapor below occupational exposure limits suitable respiratory protection must be worn. Other Work Practices Use good personal hygiene practices. Wash hands before eating, drinking, smoking or using toilet. Promptly remove soiled clothing and wash thoroughly before reuse. See section 2 for further details. - [Prevention]: 9. Physical and chemical properties Appearance Odor Odor threshold pH Melting point / freezing point Initial boiling point and boiling range Flash Point Evaporation rate (Ether= 1) Flammability (solid, gas) Upper/lower flammability or explosive limits Clear Liquid Sweet Not Measured Not available Not available > 327°F > 200°C Pensky Martin Closed Cup Slower (Butyl Acetate = 1) Not Applicable Lower Explosive Limit: Not available Page 6 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 Upper Explosive Limit: Not available Vapor pressure (Pa) Not determined Vapor Density Not available Specific Gravity 1.12 @ 77°F (H20 = 1) Solubility in Water Slight Partition coefficient n-octanol/water (Log Kow) Not Measured Auto -ignition temperature Decomposition temperature Viscosity (cst) VOC Content 9.2. Other information No other relevant information. 10.1. Reactivity Not available Not available Not available None 10. Stability and reactivity Polymerization may occur at elevated temperatures in the presence of alkalis, tertiary amines and metal compounds. 10.2. Chemical stability Stable under normal handling and storage conditions 10.3. Possibility of hazardous reactions No data available. 10.4. Conditions to avoid No data available. 10.5. Incompatible materials Water, amines, strong bases, alcohols, metal compounds and surface-active materials 10.6. Hazardous decomposition products High heat and fire may produce carbon dioxide, carbon monoxide, and oxides of nitrogen. Page 7 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 11. Toxicological information Acute toxicity Based on the properties of the epoxy constituents and considering toxicological data on similar preparations this preparation may be an irritant and a skin and respiratory sensitizer. Low molecular weight epoxy constituents are irritating to eyes, mucous membranes and skin. Repeated skin contact may lead to irritation and sensitization, possibly with cross -sensitization to other epoxies. Skin contact with the preparation and exposure to spray mist and vapor should be avoided. Ingredient Oral LD50, Skin LD50, Inhalation Inhalation I Inhalation mg/kg mg/kg I Vapor LC50, Dust/Mist LC50, Gas LC50, mg/L/4hr mg/L/4hr ppm Diglycidyl ether of bisphenol A - (25068-38-6) > 5,000.00, Rat 20,000.00, No data No data No data - Category: Rabbit - available available available NA Category: NA IBisphenol F epoxy resin - (28064-14-4) 2,000.00, Rat - No data No data No data No data J Category:4 available available available available Oxirane, (butoxymethyl)- - (2426-08-6) 1,660.00, Rat - No data No data No data No data Category:4 available available available available Note: When no route specific LD50 data is available for an acute toxin, the converted acute toxicity point estimate was used in the calculation of the product's ATE (Acute Toxicity Estimate). Classification Acute toxicity (oral) Acute toxicity (dermal) I Category --- F --- Hazard Description INot Applicable Not Applicable Acute toxicity (inhalation) F_ Not Applicable Skin corrosion/irritation 1 2 Icauses skin irritation. Serious eye damage/irritation 2 Icauses serious eye irritation. Respiratory sensitization --- INot Applicable Skin sensitization 1 Imay cause an allergic skin reaction. Germ cell mutagenicity 2 Isuspected of causing genetic defects. Carcinogenicity F --- Not Applicable Reproductive toxicity I --- INot Applicable STOT-single exposure --- INot Applicable STOT-repeated exposure --- INot Applicable Aspiration hazard --- Not Applicable Page 8 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 12. Ecological information 12.1. Toxicity Toxic to aquatic life with long lasting effects. No additional information provided for this product. See Section 3 for chemical specific data. Aquatic Ecotoxicity FIngredient Diglycidyl ether of bisphenol A - (25068-38-6) Bisphenol F epoxy resin - (28064-14-4) Oxirane, (butoxymethyl)- - (2426-08-6) 12.2. Persistence and degradability There is no data available on the preparation itself. 12.3. Bioaccumulative potential Not Measured 12.4. Mobility in soil No data available. 12.5. Results of PBT and vPvB assessment This product contains no PBT/vPvB chemicals. 12.6. Other adverse effects No data available. 96 hr LC50 fish, mg/I 3.Vrzelas mephales 9.00, Oncorhynchus mykiss Not Available 48 hr EC50 crustacea, mg/I 1.40, Daphnia magna 9.00, Daphnia magna 3.90, Daphnia magna 13. Disposal considerations 13.1. Waste treatment methods Observe all federal, state and local regulations when disposing of this substance. 14. Transport information Page 9 of 12 ErC50 algae, mg/I Not Available Not Available Not Available 14.1. UN number 14.2. UN proper shipping name 14.3. Transport hazard class(es) 14.4. Packing group Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 DOT (Domestic Surface Transportation) Not Applicable Not Regulated DOT Hazard Class: Not Applicable Not Applicable IMO / IMDG (Ocean Transportation) Not Regulated Not Regulated IMDG: Not Applicable Sub Class: Not Applicable Not Applicable 14.5. Environmental hazards IMDG Marine Pollutant: Yes ( Diglycidyl ether of bisphenol A ) 14.6. Special precautions for user No further information 15. Regulatory information ICAO/IATA Not Regulated Not Regulated Air Class: Not Applicable Not Applicable Regulatory Overview The regulatory data in Section 15 is not intended to be all-inclusive, only selected regulations are represented. Toxic Substance All components of this material are either listed or exempt from listing on the TSCA Control Act (TSCA) Inventory. WHMIS Classification D2A US EPA Tier II Hazards Fire: No Sudden Release of Pressure: No Reactive: No Immediate (Acute): Yes Delayed (Chronic): Yes EPCRA 311/312 Chemicals and RQs: To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. EPCRA 302 Extremely Hazardous: To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. EPCRA 313 Toxic Chemicals: To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. Proposition 65 - Carcinogens (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. Proposition 65 - Developmental Toxins (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. Page 10 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 Proposition 65 - Female Repro Toxins (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. Proposition 65 - Male Repro Toxins (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. New Jersey RTK Substances (>1%): Oxirane, (butoxymethyl)- Pennsylvania RTK Substances (>1 Oxirane, (butoxymethyl)- 16. Other information The information and recommendations contained herein are based upon data believed to be correct. However, no guarantee or warranty of any kind, expressed or implied, is made with respect to the information contained herein. We accept no responsibility and disclaim all liability for any harmful effects which may be caused by exposure to our products. Customers/users of this product must comply with all applicable health and safety laws, regulations, and orders. The full text of the phrases appearing in section 3 is: H226 Flammable liquid and vapor. H302 Harmful if swallowed. H315 Causes skin irritation. H317 May cause an allergic skin reaction. H319 Causes serious eye irritation. H332 Harmful if inhaled. H335 May cause respiratory irritation. H341 Suspected of causing genetic defects. H351 Suspected of causing cancer. H411 Toxic to aquatic life with long lasting effects. H412 Harmful to aquatic life with long lasting effects. This is the first version in the GHS SDS format. Listings of changes from previous versions in other formats are not applicable. To the best of our knowledge, the information contained herein is accurate. However, neither the above named supplier nor any of its subsidiaries assumes any liability whatsoever for the accuracy or completeness of the information contained herein. Final determination of suitability of any material is the sole responsibility of the user. All materials may present unknown hazards and should be used with caution. Although certain hazards are described herein, we cannot guarantee that these are the only hazards that exist. Page 11 of 12 Safety Data Sheet POUR-N-SEAL Component A SDS Revision Date: 5/4/2015 The information presented herein is based on data considered to be accurate as of the date of preparation of this Safety Data Sheet. However, SIDS may not be used as a commercial specification sheet of manufacturer or seller, and no warranty or representation, expressed or implied, is made as to the accuracy or comprehensiveness of the foregoing data and safety information, nor is any authorization given or implied to practice any patented invention without a license. In addition, no responsibility can be assumed by vendor for any damage or injury resulting from abnormal use, from any failure to adhere to recommended practices, or from any hazards inherent in the nature of the product. End of Document Page 12 of 12 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 1. Identification 1.1. Product identifier Product Identity POUR-N-SEAL Component B Alternate Names Pour-N-Seal Component B 1.2. Relevant identified uses of the substance or mixture and uses advised against Intended use Epoxy Resin Hardener Application Method See Technical Data Sheet. 1.3. Details of the supplier of the safety data sheet Company Name Company Contacts Raven Industries, Inc. — Engineered Films Division 821 W. Algonquin Street Sioux Falls, SD 57104 Raven Industries INC. Direct: (605) 335-0250 Cindy.heppler@ravenind.com 24 hour Emergency Telephone No. (605) 335-0250 If immediate assistance is not obtained, please call 911. 2. Hazard(s) identification 2.1. Classification of the substance or mixture Acute Tox. 4;H302 Harmful if swallowed. Acute Tox. 4;H312 Harmful in contact with skin. Skin Corr. 1B;H314 Causes severe skin burns and eye damage. Eye Dam. 1;H318 Causes serious eye damage. Skin Sens. 1;H317 May cause an allergic skin reaction. Repr. 2;H361 F Suspected of damaging fertility. Aquatic Chronic 2;H411 Toxic to aquatic life with long lasting effects. 2.2. Label elements Using the Toxicity Data listed in section 11 and 12 the product is labeled as follows. Page 1 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 0000 Danger H302 Harmful if swallowed. H312 Harmful in contact with skin. H314 Causes severe skin burns and eye damage. H317 May cause an allergic skin reaction. H318 Causes serious eye damage. H361f Suspected of damaging fertility. H411 Toxic to aquatic life with long lasting effects. [Prevention]: P201 Obtain special instructions before use. P202 Do not handle until all safety precautions have been read and understood. P261 Avoid breathing dust / fume / gas / mist / vapors / spray. P264 Wash thoroughly after handling. P270 Do not eat, drink or smoke when using this product. P272 Contaminated work clothing should not be allowed out of the workplace. P273 Avoid release to the environment. P280 Wear protective gloves / eye protection / face protection. [Response]: P301+312 IF SWALLOWED: Call a POISON CENTER or doctor / physician if you feel unwell. P302+352 IF ON SKIN: Wash with plenty of soap and water. P303+361+353 IF ON SKIN (or hair): Remove / Take off immediately all contaminated clothing. Rinse skin with water / shower. P304+312 IF INHALED: Call a POISON CENTER or doctor / physician if you feel unwell. P305+351+338 IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses if present and easy to do - continue rinsing. P308+313 IF exposed or concerned: Get medical advice / attention. P310 Immediately call a POISON CENTER or doctor / physician. P321 Specific treatment (see information on this label). Page 2 of 13 Safety Data Sheet POUR-N-SEAL Component B SIDS Revision Date: 5/22/2015 P330 Rinse mouth. P331 Do NOT induce vomiting. P333+313 If skin irritation or a rash occurs: Get medical advice / attention. P340 Remove victim to fresh air and keep at rest in a position comfortable for breathing. P363 Wash contaminated clothing before reuse. P391 Collect spillage. [Storage]: P405 Store locked up. [Disposal]: P501 Dispose of contents / container in accordance with local / national regulations. 3. Composition/information on ingredients 1 This product contains the following substances that present a hazard within the meaning of the relevant State and Federal Hazardous Substances regulations. i ingreuienuL.nemicai vesignanons Ivveignt 70 1 Una %liassincaiion rnoies Tetraethylenepentam i ne < 2 Acute Tox. 4; H312 [1 ] CAS Number: 0000112-57-2 Acute Tox. 4;H302 Skin Corr. 1B;H314 Skin Sens. 1;H317 Aquatic Chronic 2;H411 Diethylenetriamine (DETA) 5-15 Acute Tox. 4;H312 [1][2] CAS Number: 0000111-40-0 Acute Tox. 4;H302 Skin Corr. 1 B; H314 Skin Sens. 1;H317 TOFA, reaction product with TEPA Eye Dam. 1;H318 15-30 [1] CAS Number: 0068953-36-6 Aquatic Chronic 2;H411 Diphenylolpropane 1.0 -10 Repr. 2;1`11361f [1] CAS Number: 0000080-05-7 STOT SE 3;H335 Eye Dam. 1;H318 Skin Sens. 1;H317 black Not Classified 1.0 -10 [1][2] rarbon AS Number: 0001333-86-4 Titanium Dioxide < 1 Not Classified [1][2] CAS Number: 13463-67-7 Amorphous silica, hydrophobic < 1 Not Classified [1] CAS Number: 67762-90-7 Synthetic Amorphous Silica 40-60 Not Classified [1] CAS Number: 112926-00-8 In accordance with paragraph (i) of §1910.1200, the specific chemical identity and/or exact percentage (concentration) of composition has been withheld as a trade secret. [1] Substance classified with a health or environmental hazard. [2] Substance with a workplace exposure limit. Page 3 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 [3] PBT-substance or vPvB-substance. 'The full texts of the phrases are shown in Section 16. 4. First aid measures 4.1. Description of first aid measures General In all cases of doubt, or when symptoms persist, seek medical attention. Never give anything by mouth to an unconscious person. Inhalation Remove to fresh air, keep patient warm and at rest. If breathing is irregular or stopped, give artificial respiration. If unconscious place in the recovery position and obtain immediate medical attention. Give nothing by mouth. Eyes Irrigate copiously with clean water for at least 15 minutes, holding the eyelids apart and seek medical attention. Skin Immediately take off all contaminated clothing. For skin contact, wash immediately with soap and water. If irritation persists, get medical attention. Ingestion If conscious, give large amounts of water. If the material is swallowed, get immediate medical attention or advice. Do Not induce vomiting. 4.2. Most important symptoms and effects, both acute and delayed Overview Inhalation: May cause lung irritation; potential sensitizer See section 2 for further details. Eyes Causes serious eye damage. Skin Harmful in contact with skin. May cause an allergic skin reaction. Causes severe skin burns and eye damage. Ingestion Harmful if swallowed. 5. Fire -fighting measures 5.1. Extinguishing media Water spray, dry chemical, alcohol foam, carbon dioxide 5.2. Special hazards arising from the substance or mixture Hazardous decomposition: Oxides of carbon and nitrogen, Aldehydes Avoid breathing dust / fume / gas / mist / vapors / spray. 5.3. Advice for fire-fighters Page 4 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 Wear full protective clothing, including helmet, self-contained positive pressure or pressure demand breathing apparatus, protective clothing, and face mask. ERG Guide No. ---- 6. Accidental release measures 6.1. Personal precautions, protective equipment and emergency procedures Put on appropriate personal protective equipment (see section 8). 6.2. Environmental precautions Do not allow spills to enter drains or waterways. Use good personal hygiene practices. Wash hands before eating, drinking, smoking or using toilet. Promptly remove soiled clothing and wash thoroughly before reuse. 6.3. Methods and material for containment and cleaning up For major spills call Raven Industries (1-605-336-2750). Clean up should only be performed by trained personnel. People dealing with major spillages should wear full protective clothing including appropriate respiratory protection. Evacuate the area. Prevent further leakage, spillage or entry into drains. 7. Handling and storage 7.1. Precautions for safe handling Avoid breathing aerosols, mists and vapors. Avoid contact with skin and eyes. See section 2 for further details. - [Prevention]: 7.2. Conditions for safe storage, including any incompatibilities Handle containers carefully to prevent damage and spillage. Incompatible materials: Strong oxidizing agents If container is exposed to high heat, it can be pressurized and possibly rupture explosively. Keep the container tightly closed and in a cool, well -ventilated place. See section 2 for further details. - [Storage]: 7.3. Specific end use(s) No data available. Page 5 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 8. Exposure controls and personal protection 8.1. Control parameters Exposure CAS No. Ingredient Source Value 0000080-05-7 Diphenylolpropane OSHA INo Established Limit ACGIH INo Established Limit NIOSH INo Established Limit Supplier INo Established Limit 0000111-40-0 Diethylenetriamine (DETA) OSHA INo Established Limit ACGIH TWA: 1 ppmSkin, S NIOSH JTWA 1 ppm (4 mg/m3) [skin] Supplier INo Established Limit 0000112-57-2 Tetraethylenepentamine OSHA INo Established Limit ACGIH INo Established Limit NIOSH INo Established Limit Supplier INo Established Limit 0001333-86-4 Carbon black OSHA JTWA 3.5 mg/m3 ACGIH TWA: 3 mg/m32B, Revised 2011, TWA 3.5 mg/m3 Ca TWA 0.1 mg PAHs/m3 [in presence of polycyclic rSH aromatic hydrocarbons (PAHs)] TOFA, reaction product with TEPA Supplier OSHA INo Established Limit INo Established Limit 0068953-36-6 ACGIH INo Established Limit NIOSH INo Established Limit Supplier INo Established Limit Page 6 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 Carcinogen Data CAS No. Ingredient Fs —ourceF Value 0000080-05-7 Diphenylolpropane OSHA Select Carcinogen: No NTP Known: No; Suspected: No IARC Group 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 0000111-40-0 (DETA) OSHA Select Carcinogen: No [iethylenetriamine NTP Known: No; Suspected: No IARC IGroup 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 0000112-57-2 Tetraethylenepentamine OSHA ISelect Carcinogen: No NTP Known: No; Suspected: No IARC Group 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 0001333-86-4 Carbon black OSHA Select Carcinogen: No NTP Known: No; Suspected: No IARC IGroup 1: No; Group 2a: No; Group 2b: Yes; Group 3: No; Group 4: No; 0068953-36-6 TOFA, reaction product with TEPA OSHA Select Carcinogen: No NTP Known: No; Suspected: No IARC IGroup 1: No; Group 2a: No; Group 2b: No; Group 3: No; Group 4: No; 13463-67-7 Titanium Dioxide Not Established VHA P Not Established C Not Established 67762-90-7 Amorphous silica, hydrophobic OSHA Not Established NTP �IARC Not Established Not Established 112926-00-8 Synthetic Amorphous Silica OSHA Not Established NTP �IARC Not Established Not Established 8.2. Exposure controls Respiratory When the product is sprayed or heated without adequate ventilation, an approved MSHA/NIOSH positive -pressure, supplied -air respirator may be required. Eyes Wear safety glasses; chemical goggles (if splashing is possible). Page 7 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 Skin Protective clothing should be selected. Gloves - neoprene, nitrile rubber, butyl rubber. Thin latex disposable gloves should be avoided for repeated or long-term use. Engineering Controls Provide adequate ventilation. Where reasonably practicable this should be achieved by the use of local exhaust ventilation and good general extraction. If these are not sufficient to maintain concentrations of particulates and any vapor below occupational exposure limits suitable respiratory protection must be worn. Other Work Practices Use good personal hygiene practices. Wash hands before eating, drinking, smoking or using toilet. Promptly remove soiled clothing and wash thoroughly before reuse. See section 2 for further details. - [Prevention]: 9. Physical and chemical properties Appearance Odor Odor threshold pH Melting point / freezing point Initial boiling point and boiling range Flash Point Evaporation rate (Ether = 1) Flammability (solid, gas) Upper/lower flammability or explosive limits Vapor pressure (Pa) Vapor Density Specific Gravity Solubility in Water Partition coefficient n-octanol/water (Log Kow) Auto -ignition temperature Decomposition temperature Viscosity (cst) VOC Content 9.2. Other information No other relevant information. Slightly Viscous Liquid Sweet-smelling gel Not determined Not available Not available Not determined > 383°F Pensky Martin Closed Cup Not determined Not Applicable Lower Explosive Limit: Not available Upper Explosive Limit: Not available 1.0 mmHg @ 180°F Not available 1.20 @ 77°F Slight Not Measured Not available Not available Not available None Page 8 of 13 Safety Data Sheet POUR-N-SEAL Component B SIDS Revision Date: 5/22/2015 7 10. Stability and reactivity 10.1. Reactivity Hazardous Polymerization will not occur. 10.2. Chemical stability Stable under normal circumstances. 10.3. Possibility of hazardous reactions No data available. 10.4. Conditions to avoid Elevated temperatures; strong acids or bases in bulk 10.5. Incompatible materials Strong oxidizing agents 10.6. Hazardous decomposition products Oxides of carbon and nitrogen, Aldehydes 11. Toxicological information Acute toxicity Ingredient Oral LD50, Skin LD50, Inhalation Inhalation Inhalation mg/kg mg/kg Vapor LC50, Dust/Mist LC50, Gas LC50, I mg/L/4hr mg/L/4hr ppm Tetraethylenepentamine - (112-57-2) 2,140.00, Rat - No data No data No data No data Category:5 available Favailable available available (DETA) - (111-40-0) 1,080.00, Rat - 1,090.00, No data No data No data �Diethylenetriamine Category: 4 Rabbit - available [ available available Category: 4 OFA, reaction product with TEPA - (68953-36-6) 2,000.00, Rat - No data No data No data -F No data r Category: available Favailable available nylolpropane - (80-05-7) 5,000.00, Rat - 3,000.00, --Favailable No data Fa data No data r Category: 5 Rabbit - vailable FNo available available Category: 5 'Carbon black - (1333-86-4) 8,000.00, Rat - No data No data No data No data Category: NA available available available available Diglycidyl ether of bisphenol A (25068-38-6) > 5,000.00, Rat- 20,000.00 No Data No data No data Category: NA Rabbit- available available available Category: NA I Titanium dioxide (13463 67-7) 10,000.00 Rat- 10,000.00 — data No a -F No data No data Category: NA Rabbit- available available available Category: NA Amorphous silica hydrophobic (67762 90-7) 1,000.00, Rat- 2,000.00, Rat- No data F No data No data Category: 4 Category: 4 available available available Page 9 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 Synthetic Amorphous Silica (112926-00-8) No data No data No data No data No data available available available available available Note: When no route specific LD50 data is available for an acute toxin, the converted acute toxicity point estimate was used in the calculation of the product's ATE (Acute Toxicity Estimate). iClassification Acute toxicity (oral) Acute toxicity (dermal) Category 4 4 Hazard Description Harmful if swallowed. Harmful in contact with skin. Acute toxicity (inhalation) --- Not Applicable Skin corrosion/irritation 1 B Causes severe skin burns and eye damage. Serious eye damage/irritation 1 Icauses serious eye damage. Respiratory sensitization F --- INot Applicable Skin sensitization 1 Imay cause an allergic skin reaction. Germ cell mutagenicity --- INot Applicable Carcinogenicity --- INot Applicable Reproductive toxicity FTOT-single exposure STOT-repeated exposure Aspiration hazard 2 --- --- --- Isuspected of damaging fertility. [Not Applicable [Not Applicable [Not Applicable 12. Ecological information 12.1. Toxicity Toxic to aquatic life with long lasting effects. No additional information provided for this product. See Section 3 for chemical specific data. Aquatic Ecotoxicity Ingredient 96 hr LC50 fish, 48 hr EC50 crustacea, ErC50 algae, F mg/I mg/I mg/I Tetraethylenepentamine - (112-57-2) 420.00, Poecilia 24.00, Daphnia magna 2.00 (72 hr), Pseudokirchneriella reticulataF subcapitata Diethylenetriamine (DETA) - (111-40-0) F 1,014.00, Poecilia 53.50, Daphnia magna p4K60 (96 hr), Pseudokirchneriella reticulata subcapitata TOFA, reaction product with TEPA - (68953-36-6) 9.00, Fish (Piscis) 9.00, Daphnia magna 9.00 (72 hr), Algae Diphenylolpropane - (80-05-7) 4.60, Pimephales 7.75, Daphnia magna F2.73 (96 hr), Pseudokirchneriella promelas subcapitata Page 10 of 13 Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 Carbon black - (1333-86-4) 1,000.00, Danio rerio 5,600.00, Daphnia r magna Titanium dioxide (13463-67-7) 1,000.00, Fundulus 5.50, Daphnia magna heteroclitus I [Amorphous silica, hydrophobic (67762-90-7) Not available Not available Synthetic Amorphous Silica (112926-00-8) F Not available Not available 12.2. Persistence and degradability There is no data available on the preparation itself. 12.3. Bioaccumulative potential Not Measured 12.4. Mobility in soil No data available. 12.5. Results of PBT and vPvB assessment This product contains no PBT/vPvB chemicals. 12.6. Other adverse effects No data available. 13. Disposal considerations 13.1. Waste treatment methods Observe all federal, state and local regulations when disposing of this substance. 14.1. UN number 14.2. UN proper shipping name 14.3. Transport hazard class(es) 14.4. Packing group 14.5. Environmental hazardE 14. Transport information DOT (Domestic Surface Transportation) Not Applicable Not Regulated DOT Hazard Class: Not Applicable Not Applicable IMO / IMDG (Ocean Transportation) Not Regulated Not Regulated IMDG: Not Applicable Sub Class: Not Applicable Not Applicable IMDG Marine Pollutant: Yes ( Tetraethylenepentamine ) 14.6. Special precautions for user No further information Page 11 of 13 10,000.00 (72 hr), Scenedesmus subspicatus 5.83 (72 hr), Pseudokirchneriella subcapitata Not available Not available J ICAO/IATA Not Regulated Not Regulated Air Class: Not Applicable Not Applicable Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 F 15. Regulatory information Regulatory Overview The regulatory data in Section 15 is not intended to be all-inclusive, only selected regulations are represented. Toxic Substance All components of this material are either listed or exempt from listing on the TSCA Control Act (TSCA) Inventory. WHMIS Classification D2A E US EPA Tier II Hazards Fire: No Sudden Release of Pressure: No Reactive: No Immediate (Acute): Yes Delayed (Chronic): No EPCRA 311/312 Chemicals and RQs: To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. EPCRA 302 Extremely Hazardous: To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. EPCRA 313 Toxic Chemicals: Diphenylolpropane Proposition 65 - Carcinogens (>0.0%): Carbon black Proposition 65 - Developmental Toxins (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. Proposition 65 - Female Repro Toxins (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. Proposition 65 - Male Repro Toxins (>0.0%): To the best of our knowledge, there are no chemicals at levels which require reporting under this statute. New Jersey RTK Substances (>1%): Diphenylolpropane Carbon black Diethylenetriamine (DETA) Tetraethylenepentamine Synthetic Amorphous Silica Pennsylvania RTK Substances (>1 %): Diphenylolpropane Carbon black Page 12 of 13 Diethylenetriamine (DETA) Tetraethylenepentamine Synthetic Amorphous Silica Safety Data Sheet POUR-N-SEAL Component B SDS Revision Date: 5/22/2015 16. Other information The information and recommendations contained herein are based upon data believed to be correct. However, no guarantee or warranty of any kind, expressed or implied, is made with respect to the information contained herein. We accept no responsibility and disclaim all liability for any harmful effects which may be caused by exposure to our products. Customers/users of this product must comply with all applicable health and safety laws, regulations, and orders. The full text of the phrases appearing in section 3 is: H302 Harmful if swallowed. H312 Harmful in contact with skin. H314 Causes severe skin burns and eye damage. H317 May cause an allergic skin reaction. H318 Causes serious eye damage. H335 May cause respiratory irritation. H361f Suspected of damaging fertility. H411 Toxic to aquatic life with long lasting effects. This is the first version in the GHS SDS format. Listings of changes from previous versions in other formats are not applicable. To the best of our knowledge, the information contained herein is accurate. However, neither the above named supplier nor any of its subsidiaries assumes any liability whatsoever for the accuracy or completeness of the information contained herein. Final determination of suitability of any material is the sole responsibility of the user. All materials may present unknown hazards and should be used with caution. Although certain hazards are described herein, we cannot guarantee that these are the only hazards that exist. The information presented herein is based on data considered to be accurate as of the date of preparation of this Safety Data Sheet. However, SIDS may not be used as a commercial specification sheet of manufacturer or seller, and no warranty or representation, expressed or implied, is made as to the accuracy or comprehensiveness of the foregoing data and safety information, nor is any authorization given or implied to practice any patented invention without a license. In addition, no responsibility can be assumed by vendor for any damage or injury resulting from abnormal use, from any failure to adhere to recommended practices, or from any hazards inherent in the nature of the product. End of Document Page 13 of 13 Flush Thread PVC Well Screens, Casings and Accessories A full line of PVC products that include: Vee-Wire® well screens, slotted well screens, casings and accessories for the water supply and environmental industries. In water supply applications PVC can offer an economical and long-lasting design option, especially when used with a Johnson Screens stainless steel screens. Polyvinyl chloride (PVC) - Is economical, light weight and its design flexibility makes it ideal for: ■ Water wells ■ Water monitoring wells ■ Soil vapor extraction ■ Sparging - air or oxygen ■ Bioremediation ■ Free product recovery ■ Groundwater extraction ■ Drainage and dewatering ■ Leachate collection ■ Degassing Among the fabricating options: ■ PVC casing and well screens from 0.50 to 18 in. diameter ■ Plain end, flush joint or NPT threaded ■ Threaded products supplied in laying lengths ■ Slot openings from 0.006 in. to 0.500 in. ■ Environmental products hermetically sealed in plastic ■ Round hole perforated pipe from 1 in. to 16 in. diameter More Design The flexibility to specify and design a wide variety of slot openings, diameters and wall thicknesses Options allows the well designer to create a well for a wide range of depths and applications. Johnson Screens' PVC well products are designed and manufactured to industry standards, with tolerances that meet or exceed customer needs. This results in a long-lasting well that requires less maintenance. Customer An experienced and knowledgeable customer service representatives, technical support staff and Support engineers, provide customers with solutions to a variety of issues, including screen and casing size recommendations, installation suggestions and sieve analysis. Locally With an extensive distributor network, the Johnson Screens brand is available to customers at a Available number of distributors throughout the world. Flush Threaded PVC Casing and Slotted Pipe Specifications All Johnson Screens Flush Threaded PVC pipe and screen products are manufactured from plastic of Type 1, Grade 1, PVC compound with a cell classification of 12454-B per ASTM D 1784. Pipe materials are NSF approved for potable water and are in strict compliance with ASTM D1785. To maintain the integrity of the slotting and threading process, the only coolant used is air. Physical Data For Common Size Pipe schedule 40, 80, 120 and large diameter SDR 17* 0.5 0.84 0.60 0.11 0.17 0.53 0.15 0.21 0.48 0.17 0.24 0.75 1.05 0.80 0.11 0.23 0.72 0.15 0.29 0.69 0.17 0.31 1 1.32 1.03 0.13 0.33 0.94 0.18 0.42 0.89 0.20 0.46 1.25 1.66 1.36 0.14 0.45 1.26 0.19 0.59 1.20 0.22 0.65 1.5 1.90 1.59 0.15 0.54 1.48 0.20 0.71 1.42 0.23 0.79 2 2.38 2.05 0.15 0.72 1.91 0.22 0.98 1.85 0.25 1.11 2.5 2.88 2.45 0.20 1.14 2.29 0.28 1.50 2.24 0.30 1.62 3 3.50 3.04 0.22 1.49 2.86 0.30 2.01 2.76 0.35 2.31 4 4.50 4.00 0.24 2.12 3.79 0.34 2.94 3.57 0.44 3.71 5 5.56 5.02 0.26 2.87 4.77 0.38 4.08 4.37 0.50 5.00 6 6.63 6.03 0.28 3.73 5.71 0.43 5.61 5.43 0.56 7.13 8 8.63 7.94 0.32 5.62 7.57 0.50 8.52 7.27 0.51 8.40 10 10.75 9.98 0.37 7.97 9.49 0.59 12.64 9.38 0.63 13.27 12 12.75 11.89 0.41 10.53 11.29 0.69 17.38 11.13 0.75 18.89 14 14.00 13.07 0.44 12.46 12.41 0.75 20.85 12.21 0.83 22.55 16 16.00 14.94 0.50 16.29 14.21 0.84 26.81 13.95 0.94 31.66 18 18.00 16.81 0.56 20.59 16.01 0.94 33.54 15.78 1.06 35.60 *Based on GF Harvel Engineering Guide Custom lengths up to 20 ft. can be provided on request. Laying (makeup) length is standard for commonly used materials such as 1, 2, 4, 6 in. diameter Schedule 40 and 80 PVC. Other sizes are end -to -end length unless specified. Standard threads per inch (TPI), for pipe sized .5 -1 in. is 8 TPI, 1.25 - 1.5 in. is 4 TPI, and 2 in. and up is 2 TPI. Customized screen products for special pipe lengths, slot sizes, slot spacing and thread types are available to meet specifications. All flush threaded material is supplied with an 0-ring. All environmental screens and casings, up to 8 in. diameter, are cleaned and bagged prior to shipment. Temperature De -Rating Table OLICHIgUl De -Rating Curing of cement and grout generates sufficient heat to 73 / 23 1.00 affect PVC strength and performance. When operating 80 / 27 0.88 at elevated temperatures, the actual values for Collapse 90 / 32 0.75 Pressure, Burst Pressure and Tensile Strength will be de -rated 100 / 38 0.62 according to the chart. 110 / 44 0.51 120 / 49 0.40 130 / 54 0.31 140 / 60 0.22 Page 2 Pressure and Strengths Testing methods and procedures used are in compliance with ASTM F480 standards for thermoplastic pipe in all applicable areas. 40 1 Sch. 80 1 " "" +""' I Srh. 40 1 Srh. RC 0.5 1,400 3,800 6,240 360 340 540 0.75 750 2,100 2,890 460 490 730 1 600 1,600 2,350 700 730 1,000 1.25 300 900 1,370 920 880 1,400 1.5 250 700 1,020 1200 1,200 1,700 2 150 450 700 1500 1,500 2,400 2.5 200 520 680 2,000 2,900 3,600 3 130 360 590 3,000 3,800 5,300 4 80 240 540 4,400 5,800 8,800 5 50 170 420 5,700 6,800 12,400 6 40 150 350 7,100 11,000 17,200 8 30 100 113 11,400 18,400 18,400 10 20 90 113 15,000 26,300 26,300 12 17 85 113 19,500 36,200 36,200 14 16 80 113 22,900 43,400 43,400 16 16 80 113 28,900 55,100 55,100 18 16 75 113 36,000 71,000 71,000 Notes: 1. Values noted with an asterisk (*) are based on minimum wall and include a 50% safety factor. These values are based on ASTM Standards where appropriate. Values noted with a double asterisk (**) are recommended dry hanging weights for threaded PVC. These values are calculated based on the minimum cross sectional area of either the box or pin thread portion of the joint after machining. The resulting minimal area was multiplied by 7,000 psi tensile strength per ASTM D-1784 to yield the recommended dry hanging weight. Safety factor: even though these calculated values are lower than actual Johnson Screens test data, Johnson Screens recommends not to exceed the above values for well construction. 2. All strength properties are based on 73' F Collapse Pressure Pounds per square inch of external hydrostatic pressure that can be safely applied. Tensile Strength The suspended weight the threaded joint can sustain in a vertical position without causing stretching or failure. Page 3 Slotted Screens and Open Area The following tables represent the standard open area of the Johnson Screens slotted PVC well screen. All calculations are based on the inside diameter of the pipe which represents the most accurate area and transmitting potential of the screen. The data presented in these tables is for standard product line. To calculate transmitting capacity in gpm at 0.1 ft/sec flow velocity, multiply the open area of square inches by 0.31. Slotted Screen Open Area in Square Inches Per Foot for Schedule 40 - Std. Construction Nominal Standard Slot Opening (in.) •• e Size MMMMMMMMMM 0.5 0.8 1.1 1.5 0.75 0.8 1.2 1.6 1 1.1 1.7 2.2 2.7 3.1 3.1 3.8 4.4 6.4 5.6 1.25 1.7 2.5 3.3 4.0 4.7 4.7 5.6 6.5 9.6 8.4 1.5 2.1 3.0 3.9 4.8 5.6 5.6 6.8 7.8 11.6 10.1 2 3.6 5.1 6.6 8.0 9.3 6.6 8.0 9.3 13.7 11.3 2.5 4.2 6.1 7.9 9.5 11.0 7.9 9.5 11.0 16.3 14.3 3 4.7 6.8 8.7 10.5 12.2 9.9 12.0 13.9 20.6 18.0 4 6.0 8.7 11.2 13.5 15.7 11.2 13.5 15.7 23.1 18.0 5 6.3 9.2 11.8 14.3 16.6 13.0 15.8 18.3 27.0 23.6 6 6.2 9.0 11.6 13.1 15.4 19.9 24.0 27.9 41.1 36.0 8 6.5 9.5 12.4 15.3 18.0 23.2 28.0 32.5 48.0 42.0 10 14.2 17.5 20.6 26.5 32.0 37.2 54.9 48.0 12 18.3 22.5 26.5 34.1 41.3 47.9 70.7 61.9 14 27.5 33.5 39.3 60.0 71.3 16 36.2 42.4 64.7 76.9 18 45.9 53.8 82.1 97.5 Custom slot patterns and slot sizes available on request Among some of the fabricating options for casing and screen: ■ Plain end, flush joint or NPT threaded ■ Threaded products supplied in laying lengths ■ Slot openings from 0.006 to 0.500 in. Page 4 Slotted Screen Open Area in Square Inches Per Foot for Schedule 80 - Std. Construction Nominal Standard Slot Opening (in.) Pipe Size MMMMMMMMMM 0.5 0.6 0.9 1.2 0.75 0.7 0.9 1.2 1 0.9 1.3 1.7 2.1 2.5 2.5 3.0 3.5 5.1 4.5 1.25 1.5 2.2 2.8 3.4 4.0 3.7 4.5 5.2 7.7 6.8 1.5 1.7 2.5 3.3 4.0 4.7 4.7 5.6 6.5 9.6 8.4 2 2.9 4.2 5.4 6.5 7.6 5.4 6.5 7.6 11.1 9.0 2.5 3.6 5.1 6.6 8.0 9.3 6.6 8.0 9.3 13.7 11.3 3 4.0 5.8 7.5 9.0 10.5 8.7 10.5 12.2 18.0 15.8 4 4.7 6.8 8.7 10.5 12.2 11.6 14.0 16.3 24.0 21.0 5 6.7 8.2 9.6 12.4 15.0 17.4 25.7 24.0 6 8.7 10.6 12.5 16.1 19.5 22.7 33.4 29.3 8 13.5 17.4 21.0 24.4 36.0 42.8 10 11.1 14.5 17.7 20.7 31.6 37.5 12 22.0 26.8 31.5 48.0 57.0 14 23.7 28.9 33.9 51.8 61.5 16 31.8 37.2 56.8 67.5 18 34.4 40.4 61.6 73.1 Custom slot patterns and slot sizes available on request Environmental Monitoring Application Manufacturing a complete line of PVC well screens, casings and accessories suited for groundwater monitoring and remediation, Johnson Screens products meet manufacturing techniques and process requirements of the environmental and remediation markets. Johnson Screens can provide the following: ■ No printing on screen or pipe ■ Cleaned and bagged ■ Flush thread connections ■ 0-rings that are pre -installed ■ Boxed or bulk package options Page 5 Safety Data Sheet Issue Date 01-Jun-2010 Revision Date: 02-Oct-2013 1. IDENTIFICATION Product Identifier Product Name Gorilla Multi -purpose Glue Low-VOC Solvent Cement for PVC/CPVC Plastic Pipe Other means of identification SDS # 04441, 08441, 16441, 32441 UN/ID No 04441, 08441, 16441, 32441 Product Code Recommended use of the chemical and restrictions on use Recommended Use Low-VOC solvent cement for PVC/CPVC plastic pipe Details of the suoDlier of the safetv data sheet Manufacturer Address Gorilla PVC Cement LLC PO Box 530308 W Palm Beach, FL 33403 Emergency Telephone Number Company Phone Number 1-888-367-4583 Emergency Telephone (24 hr) INFOTRAC 1-800-535-5053 (North America) 1-352-323-3500 (International) Appearance Clear Liquid Classification 2. HAZARDS IDENTIFICATION Physical State Liquid Odor Ether -like Acute toxicity - Oral Category 4 Acute toxicity - Inhalation Dusts/Mists Category 4 Serious eye damage/eye irritation Category 2 Specific target organ toxicity (single exposure) Category 3 Flammable Liquids Category 2 Hazards Not Otherwise Classified (HNOC) May be harmful in contact with skin Siqnal Word Danger Hazard Statements Harmful if swallowed Harmful if inhaled Causes serious eye irritation May cause respiratory irritation. May cause drowsiness or dizziness Highly flammable liquid and vapor Page 1 / 10 Revision Date: 02-Oct-2013 OC Precautionary Statements - Prevention Use personal protective equipment as required Wash face, hands and any exposed skin thoroughly after handling Do not eat, drink or smoke when using this product Avoid breathing dust/fume/gas/mist/vapors/spray Use only outdoors or in a well -ventilated area Keep away from heat/sparks/open flames/hot surfaces. — No smoking Keep container tightly closed Ground/bond container and receiving equipment Use explosion -proof equipment Use only non -sparking tools Take precautionary measures against static discharge Wear protective gloves/protective clothing/eye protection/face protection Keep cool Precautionary Statements - Response If exposed or concerned: Get medical advice/attention IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do. Continue rinsing Immediately call a POISON CENTER or doctor/physician IF ON SKIN (or hair): Remove/Take off immediately all contaminated clothing. Rinse skin with water/shower IF INHALED: Remove victim to fresh air and keep at rest in a position comfortable for breathing IF SWALLOWED: Call a POISON CENTER or doctor/physician if you feel unwell Rinse mouth IN CASE OF FIRE: Use CO2, dry chemical, or foam for extinction Precautionary Statements - Storage Store in a well -ventilated place. Keep container tightly closed Store locked up Keep cool Precautionary Statements - Disposal Dispose of contents/container to an approved waste disposal plant WHMIS Classification Class B-Division 2 Class D-Division 2A Class D-Division 2B 3. COMPOSITION/INFORMATION ON INGREDIENTS Chemical Name CAS No Wei ht% Tetrah drofuran 109-99-9 Proprietary Methyl ethyl ketone 78-93-3 Proprietary C clohexanone 108-94-1 Proprietary Acetone 67-64-1 Proprietary CPVC Resin 68648-82-8 Proprietary * The exact percentage (concentration) of composition has been withheld as a trade secret Page 2 / 10 Revision Date: 02-Oct-2013 4. FIRST -AID MEASURES First Aid Measures General Advice If exposed or concerned: Get medical advice/attention. Eye Contact In case of irritation from airborne exposure, move to fresh air. Rinse immediately with plenty of water, also under the eyelids, for at least 15 minutes. Seek immediate medical attention/advice. Skin Contact Take off contaminated clothing. Wash with soap and water. If symptoms persist, call a physician. Wash contaminated clothing before reuse. Inhalation Remove to fresh air. If symptoms persist, call a physician. If breathing is difficult, give oxygen. Seek immediate medical attention/advice. Ingestion Rinse mouth. Seek medical attention. If drowsy or unconscious, do not give anything by mouth; place individual on the left side with head down. Do not induce vomiting. Most important symptoms and effects Symptoms Exposed individuals may experience eye tearing, redness and discomfort. Prolonged or repeated skin contact may result in dermatitis (red, dry skin). May cause nose and throat irritation, with possible central nervous system effects. Fatigue and weakness. May cause drowsiness or dizziness. Long term overexposure may cause liver and kidney damage. Indication of any immediate medical attention and special treatment needed Notes to Physician Treat symptomatically. Individuals with chronic respiratory, skin, kidney, or liver disorders may be at increased risk from exposure. 5. FIRE -FIGHTING MEASURES Suitable Extinguishing Media Foam. Carbon dioxide (CO2). Dry chemical. Unsuitable Extinguishing Media Not determined. Specific Hazards Arising from the Chemical Class IB Flammable Liquid. Vapors may travel to source of ignition and flash back. Hazardous Combustion Products Carbon oxides. Various hydrocarbon vapors and toxic gases. Protective equipment and precautions for firefighters As in any fire, wear self-contained breathing apparatus pressure -demand, MSHA/NIOSH (approved or equivalent) and full protective gear. 6. ACCIDENTAL RELEASE MEASURES Personal precautions, protective equipment and emergency procedures Personal Precautions Use personal protective equipment as required. ELIMINATE all ignition sources (no smoking, flares, sparks or flames in immediate area). Persons not wearing proper personal protective equipment should be excluded from area of spill. Environmental Precautions Do not allow into any sewer, on the ground or into any body of water. Methods and material for containment and cleaning up Page 3 / 10 Revision Date: 02-Oct-2013 Methods for Containment Prevent further leakage or spillage if safe to do so. Methods for Clean -Up Pump or vacuum transfer spilled product to clean containers for recovery. Absorb unrecoverable product. Transfer contaminated absorbent, soil and other materials to containers for disposal. 7. HANDLING AND STORAGE Precautions for safe handling Advice on Safe Handling Wash thoroughly after handling. Use personal protection recommended in Section 8. Do not eat, drink or smoke when using this product. Avoid breathing vapors or mists. Use only in well -ventilated areas. Ground/bond container and receiving equipment. Keep away from heat/sparks/open flames/hot surfaces. — No smoking. Use spark -proof tools and explosion - proof equipment. Take precautionary measures against static discharges. Containers of this material may be hazardous when emptied. Since emptied containers retain product residues (vapor, liquid, solid) all hazard precautions given in the data sheet must be observed. Avoid prolonged contact with eyes, skin, and clothing. Obtain special instructions before use. Do not handle until all safety precautions have been read and understood. Conditions for safe storage, including any incompatibilities Storage Conditions Keep containers tightly closed in a dry, cool and well -ventilated place. Store containers upright. Store away from heat, sparks, flame. Incompatible Materials Oxidizers. Acids. Bases. 8. EXPOSURE CONTROLS/PERSONAL PROTECTION Exposure Guidelines Chemical Name ACGIH TLV OSHA PEL NIOSH IDLH Tetrahydrofuran STEL: 100 ppm TWA: 200 ppm IDLH: 2000 ppm 109-99-9 TWA: 50 ppm TWA: 590 mg/m3 TWA: 200 ppm S` (vacated) TWA: 200 ppm TWA: 590 mg/m3 (vacated) TWA: 590 mg/m3 STEL: 250 ppm (vacated) STEL: 250 ppm STEL: 735 mg/m3 vacated STEL: 735 m /m3 Acetone STEL: 750 ppm TWA: 1000 ppm IDLH: 2500 ppm 67-64-1 TWA: 500 ppm TWA: 2400 mg/m3 TWA: 250 ppm (vacated) TWA: 750 ppm TWA: 590 mg/m3 (vacated) TWA: 1800 mg/m3 (vacated) STEL: 2400 mg/m3 The acetone STEL does not apply to the cellulose acetate fiber industry. It is in effect for all other sectors vacated STEL: 1000 ppm Methyl ethyl ketone STEL: 300 ppm TWA: 200 ppm IDLH: 3000 ppm 78-93-3 TWA: 200 ppm TWA: 590 mg/m3 TWA: 200 ppm (vacated) TWA: 200 ppm TWA: 590 mg/m3 (vacated) TWA: 590 mg/m3 STEL: 300 ppm (vacated) STEL: 300 ppm STEL: 885 mg/m3 vacated STEL: 885 m /m3 Cyclohexanone STEL: 50 ppm TWA: 50 ppm IDLH: 700 ppm 108-94-1 TWA: 20 ppm TWA: 200 mg/m3 TWA: 25 ppm S' (vacated) TWA: 25 ppm TWA: 100 mg/m3 (vacated) TWA: 100 mg/m3 vacated S" Appropriate engineering controls Page 4 / 10 Revision Date: 02-Oct-2013 Engineering Controls Apply technical measures to comply with the occupational exposure limits. Ventilation systems. Eyewash stations. Showers. Mechanical exhaust (explosion proof) may be required. Individual protection measures, such as personal protective equipment Eye/Face Protection Splash goggles or safety glasses. Skin and Body Protection Rubber gloves. Use body protection appropriate for task. Respiratory Protection Not required under normal conditions. If recommended levels are exceeded, respiratory protection must be selected to assure compliance with OSHA Standard 29CFR 1910.134. General Hygiene Considerations Handle in accordance with good industrial hygiene and safety practice. 9. PHYSICAL AND CHEMICAL PROPERTIES Information on basic physical and chemical properties Physical State Appearance Color Property pH Melting Point/Freezing Point Boiling Point/Boiling Range Flash Point Evaporation Rate Flammability (Solid, Gas) Upper Flammability Limits Lower Flammability Limit Vapour Pressure Vapor Density Specific Gravity Water Solubility Solubility in other solvents Partition Coefficient Auto -ignition Temperature Decomposition Temperature Kinematic Viscosity Dynamic Viscosity Explosive Properties Oxidizing Properties VOC Content Liquid Liquid Clear Values Not available -108 °C / -163 °F 56°C/133°F -20 °C / -4 °F > 1.0 n/a-liquid 12.8% 1.8% Odor Odor Threshold Remarks • Method (butyl acetate = 1) Ether -like 0.88 ppm 190 mm Hg @ 20°C (68°F) 2.5 (Air=1) 0.950 Negligible Not determined Not determined 321 °C / 610 °F Not determined Not determined Not determined Not determined Not determined Not determined Maximum VOC emissions when applied and tested per SCAQMD Rule 1168, Test Method 316A is — 490 g/L 10. STABILITY AND REACTIVITY Reactivity Not reactive under normal conditions. Chemical Stability Stable under recommended storage conditions Possibilitv of Hazardous Reactions None under normal processing Hazardous Polymerization Hazardous polymerization does not occur. Page 5 / 10 Revision Date: 02-Oct-2013 Conditions to Avoid Avoid heat, sparks, open flames and other ignition sources. Incompatible Materials Oxidizers. Acids. Bases. Hazardous Decomposition Products Carbon oxides. Hydrogen chloride. Other various hydrocarbons. 11. TOXICOLOGICAL INFORMATION Information on likely routes of exposure Product Information Eye Contact Skin Contact Inhalation Ingestion Component Information Causes serious eye irritation. May be harmful in contact with skin. Harmful if inhaled. Harmful if swallowed. Chemical Name Oral LD50 Dermal LD50 Inhalation LC50 Tetrahydrofuran = 1650 mg/kg ( Rat) = 53.9 mg/L ( Rat) 4 h = 180 mg/L 109-99-9 Rat 1 h Acetone = 5800 mg/kg ( Rat ) 67-64-1 Methyl ethyl ketone = 2737 mg/kg ( Rat) = 6480 mg/kg ( Rabbit ) 78-93-3 Cyclohexanone = 800 mg/kg ( Rat) = 948 mg/kg ( Rabbit) = 10.7 mg/L ( Rat) 4 h = 8000 ppm 108-94-1 ( Rat) 4 h Information on physical, chemical and toxicological effects Symptoms Please see section 4 of this SIDS for symptoms. Delayed and immediate effects as well as chronic effects from short and long-term exposure Carcinogenicity The table below indicates whether each agency has listed any ingredient as a carcinogen. However, the product as a whole has not been tested. Chemical Name ACGIH IARC NTP OSHA Tetrahydrofuran A3 109-99-9 Cyclohexanone A3 Group 3 108-94-1 Legend ACGIH (American Conference of Governmental Industrial Hygienists) A3 - Animal Carcinogen IARC (International Agency for Research on Cancer) Group 3 IARC components are "not classifiable as human carcinogens" STOT - single exposure Numerical measures of toxicity Not determined May cause respiratory irritation. May cause drowsiness or dizziness. Page 6 / 10 Revision Date: 02-Oct-2013 12. ECOLOGICAL INFORMATION Ecotoxicity Category IV Chemical Name Algae/aquatic plants Fish Toxicity to Crustacea microorganisms Tetrahydrofuran 1970 - 2360: 96 h 5930: 24 h Daphnia magna 109-99-9 Pimephales promelas mg/L mg/L EC50 LC50 flow -through 2700 - 3600: 96 h Pimephales promelas mg/L LC50 static Acetone 4.74 - 6.33: 96 h EC50 = 14500 mg/L 15 min 10294 - 17704: 48 h Daphnia 67-64-1 Oncorhynchus mykiss mL/L magna mg/L EC50 Static LC50 6210 - 8120: 96 h 12600 - 12700: 48 h Daphnia Pimephales promelas mg/L magna mg/L EC50 LC50 static 8300: 96 h Lepomis macrochirus mg/L LC50 Methyl ethyl ketone 3130 - 3320: 96 h EC50 = 3403 mg/L 30 min 520: 48 h Daphnia magna 78-93-3 Pimephales promelas mg/L EC50 = 3426 mg/L 5 min mg/L EC50 5091: 48 h LC50 flow -through Daphnia magna mg/L EC50 4025 - 6440: 48 h Daphnia magna m /L EC50 Static Cyclohexanone 20: 96 h Chlorella vulgaris 481 - 578: 96 h Pimephales EC50 = 18.5 mg/L 5 min 800: 24 h Daphnia magna 108-94-1 mg/L EC50 promelas mg/L LC50 flow- EC50 = 21.3 mg/L 10 min mg/L EC50 through 8.9: 96 h EC50 = 25 mg/L 5 min Pimephales promelas mg/L LC50 Persistence/Degradability Not determined. Bioaccumulation Not determined. Mobility Chemical Name Partition Coefficient Tetrahydrofuran 0.45 109-99-9 Methyl ethyl ketone 0.29 78-93-3 Cyclohexanone 0.86 108-94-1 Acetone -0.24 67-64-1 Other Adverse Effects Not determined 13. DISPOSAL CONSIDERATIONS Waste Treatment Methods Disposal of Wastes Disposal should be in accordance with applicable regional, national and local laws and regulations. Page 7 / 10 Revision Date: 02-Oct-2013 Contaminated Packaging Disposal should be in accordance with applicable regional, national and local laws and regulations. US EPA Waste Number Chemical Name RCRA RCRA - Basis for Listing RCRA - D Series Wastes RCRA - U Series Wastes Tetrahydrofuran U213 109-99-9 Acetone Included in waste stream: 0002 67-64-1 F039 Methyl ethyl ketone U159 Included in waste streams: 200.0 mg/L regulatory level U159 78-93-3 F005,F039 Cyclohexanone Included in waste stream: U057 108-94-1 F039 California Hazardous Waste Status Chemical Name California Hazardous Waste Status Tetrahydrofuran Toxic 109-99-9 Ignitable Methyl ethyl ketone Toxic 78-93-3 Ignitable Acetone Ignitable 67-64-1 14. TRANSPORT INFORMATION Note Please see current shipping paper for most up to date shipping information, including exemptions and special circumstances. Shipments of containers holding 5 Liters or less per inner packaging may qualify for a "Limited Quantity" exception. Refer to 49 CFR 173.150 for additional information. DOT UN/ID No UN1133 Proper Shipping Name Adhesives Hazard Class 3 Packing Group II IATA UN/ID No UN1133 Proper Shipping Name Adhesives Hazard Class 3 Packing Group II IMDG UN/ID No UN1133 Proper Shipping Name Adhesives Hazard Class 3 Packing Group II Marine Pollutant No International Inventories 15. REGULATORY INFORMATION Page 8 / 10 Revision Date: 02-Oct-2013 TSCA Listed Legend: TSCA - United States Toxic Substances Control Act Section 8(b) Inventory DSUNDSL - Canadian Domestic Substances List/Non-Domestic Substances List EINECS/ELINCS - European Inventory of Existing Chemical Substances/European List of Notified Chemical Substances ENCS - Japan Existing and New Chemical Substances IECSC - China Inventory of Existing Chemical Substances KECL - Korean Existing and Evaluated Chemical Substances PICCS - Philippines Inventory of Chemicals and Chemical Substances US Federal Regulations CERCLA Chemical Name Hazardous Substances RQs CERCLA/SARA RQ Reportable Quantity (RQ) Tetrahydrofuran 1000 lb RQ 1000 lb final RQ 109-99-9 RQ 454 kg final RQ Methyl ethyl ketone 5000 lb RQ 5000 lb final RQ 78-93-3 RQ 2270 kg final RQ Cyclohexanone 5000 lb RQ 5000 lb final RQ 108-94-1 RQ 2270 kg final RQ Acetone 5000 lb RQ 5000 lb final RQ 67-64-1 RQ 2270 kg final RQ SARA 313 Not determined US State Regulations California Proposition 65 This product may contain trace levels of chemicals known to the State of California to cause cancer. Exposure to these chemicals above the State of California 'No Significant Risk Level' is unlikely under normal use conditions. U.S. State Right -to -Know Regulations Chemical Name New Jersey Massachusetts Pennsylvania Tetrahydrofuran X X X 109-99-9 Acetone X X X 67-64-1 Methyl ethyl ketone X X X 78-93-3 Cyclohexanone X X X 108-94-1 Page 9 / 10 Revision Date: 02-Oct-2013 16. OTHER INFORMATION NFPA Health Hazards Flammability Instability Special Hazards 2 3 1 None HMIS Health Hazards Flammability Physical Hazards Personal Protection 2 3 1 G Issue Date 01-Jun-2010 Revision Date: 02-Oct-2013 Revision Note New format DisrWrnPr The information provided in this Safety Data Sheet is correct to the best of our knowledge, information and belief at the date of its publication. The information given is designed only as a guidance for safe handling, use, processing, storage, transportation, disposal and release and is not to be considered a warranty or quality specification. The information relates only to the specific material designated and may not be valid for such material used in combination with any other materials or in any process, unless specified in the text. End of Safety Data Sheet Page 10 / 10 1. Identification Product identifier Other means of identification SDS number Synonyms Recommended use Recommended restrictions SAFETY DATA SHEET Oatey PVC Heavy Duty Clear or Gray Cement 1102E Part Numbers: Clear 30850, 30863, 30876(TV), 30882, 31008(TV), 31011, 31950, 31951, 31952, 31953 Gray 30349, 31093, 31094, 31095, 31105, 31118, 31978, 31979, 31980, 31981, 32050, 32051, 32052, 32210, 32211 Joining PVC Pipes None known. Manufacturer/Importer/Supplier/Distributor information Company Name Address Telephone E-mail Transport Emergency Emergency First Aid Contact person 2. Hazard(s) identification Physical hazards Health hazards OSHA defined hazards Label elements Signal word Hazard statement Precautionary statement Oatey Co. 4700 West 160th St. Cleveland, OH 44135 216-267-7100 info@oatey.com Chemtrec 1-800-424-9300 (Outside the US 1-703-527-3887) 1-877-740-5015 MSDS Coordinator Flammable liquids Category 2 Acute toxicity, oral Category 4 Skin corrosion/irritation Category 2 Serious eye damage/eye irritation Category 2A Specific target organ toxicity, single exposure Category 3 respiratory tract irritation Specific target organ toxicity, single exposure Category 3 narcotic effects Aspiration hazard Category 1 Not classified. �$O Danger Highly flammable liquid and vapor. Harmful if swallowed. May be fatal if swallowed and enters airways. Causes skin irritation. Causes serious eye irritation. May cause respiratory irritation. May cause drowsiness or dizziness. Prevention Keep away from heat/sparks/open flames/hot surfaces. - No smoking. Use only outdoors or in a well -ventilated area. Keep container tightly closed. Ground/bond container and receiving equipment. Use explosion -proof electrical/ventilating/lighting equipment. Use only non -sparking tools. Take precautionary measures against static discharge. Avoid breathing mist or vapor. Wash thoroughly after handling. Do not eat, drink or smoke when using this product. Wear protective gloves/protective clothing/eye protection/face protection. Response Rinse mouth. Do NOT induce vomiting. If skin irritation occurs: Get medical advice/attention. If eye irritation persists: Get medical advice/attention. Take off contaminated clothing and wash before reuse. In case of fire: Use appropriate media to extinguish. Storage Store in a well -ventilated place. Keep container tightly closed. Keep cool. Store locked up. Disposal Dispose of contents/container in accordance with local/regional/national/international regulations. Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date:12-5-2017 Issue date:8-4-2014 1 / 10 Hazard(s) not otherwise Frequent or prolonged contact may defat and dry the skin, leading to discomfort and dermatitis. classified (HNOC) May form explosive peroxides. Contains a chemical classified by the US EPA as a suspected possible carcinogen. Supplemental information Not applicable. 3. Composition/information on ingredients Mixtures Chemical name CAS number % Furan, Tetrahydro- 109-99-9 30-60 2-Propanone 67-64-1 10-30 Cyclohexanone 108-94-1 10-30 Polyvinyl chloride 9002-86-2 10-30 Methyl ethyl ketone 78-93-3 5-10 Colloidal silicon dioxide 112945-52-5 1-5 *Designates that a specific chemical identity and/or percentage of composition has been withheld as a trade secret. 4. First -aid measures Inhalation Remove victim to fresh air and keep at rest in a position comfortable for breathing. Call a POISON CENTER or doctor/physician if you feel unwell. Skin contact Take off immediately all contaminated clothing. Wash with plenty of soap and water. If skin irritation occurs: Get medical advice/attention. Take off contaminated clothing and wash before reuse. Eye contact Immediately flush eyes with plenty of water for at least 15 minutes. Remove contact lenses, if present and easy to do. Continue rinsing. If eye irritation persists: Get medical advice/attention. Ingestion Call a physician or poison control center immediately. Do not induce vomiting. If vomiting occurs, keep head low so that stomach content doesn't get into the lungs. Aspiration may cause pulmonary edema and pneumonitis. Most important Symptoms may include stinging, tearing, redness, swelling, and blurred vision. Skin irritation. symptoms/effects, acute and Vapors have a narcotic effect and may cause headache, fatigue, dizziness and nausea. May delayed cause redness and pain. Indication of immediate Provide general supportive measures and treat symptomatically. Thermal burns: Flush with water medical attention and special immediately. While flushing, remove clothes which do not adhere to affected area. Call an treatment needed ambulance. Continue flushing during transport to hospital. In case of shortness of breath, give oxygen. Keep victim warm. Keep victim under observation. Symptoms may be delayed. General information Take off all contaminated clothing immediately. IF exposed or concerned: Get medical advice/attention. Ensure that medical personnel are aware of the material(s) involved, and take precautions to protect themselves. Wash contaminated clothing before reuse. 5. Fire -fighting measures Suitable extinguishing media Alcohol resistant foam. Water fog. Dry chemical powder. Carbon dioxide (CO2). Unsuitable extinguishing Do not use water jet as an extinguisher, as this will spread the fire. media Specific hazards arising from Vapors may form explosive mixtures with air. Vapors may travel considerable distance to a source the chemical of ignition and flash back. During fire, gases hazardous to health may be formed. Special protective equipment Self-contained breathing apparatus and full protective clothing must be worn in case of fire. and precautions for firefighters Fire fighting In case of fire and/or explosion do not breathe fumes. Move containers from fire area if you can do equipment/instructions so without risk. Specific methods Use standard firefighting procedures and consider the hazards of other involved materials. General fire hazards Highly flammable liquid and vapor. This product contains tetrahydrofuran that may form explosive organic peroxide when exposed to air or light or with age. Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 2 / 10 6. Accidental release measures Personal precautions, Keep unnecessary personnel away. Keep people away from and upwind of spill/leak. Keep out of protective equipment and low areas. Eliminate all ignition sources (no smoking, flares, sparks, or flames in immediate area). emergency procedures Wear appropriate protective equipment and clothing during clean-up. Avoid inhalation of vapors or mists. Do not touch damaged containers or spilled material unless wearing appropriate protective clothing. Ventilate closed spaces before entering them. Local authorities should be advised if significant spillages cannot be contained. For personal protection, see section 8 of the SIDS. Methods and materials for Eliminate all ignition sources (no smoking, flares, sparks, or flames in immediate area). Take containment and cleaning up precautionary measures against static discharge. Use only non -sparking tools. Keep combustibles (wood, paper, oil, etc.) away from spilled material. Large Spills: Stop the flow of material, if this is without risk. Dike the spilled material, where this is possible. Cover with plastic sheet to prevent spreading. Use a non-combustible material like vermiculite, sand or earth to soak up the product and place into a container for later disposal. Use water spray to reduce vapors or divert vapor cloud drift. Prevent entry into waterways, sewer, basements or confined areas. Following product recovery, flush area with water. Small Spills: Wipe up with absorbent material (e.g. cloth, fleece). Clean surface thoroughly to remove residual contamination. Never return spills to original containers for re -use. For waste disposal, see section 13 of the SIDS. Environmental precautions Avoid discharge into drains, water courses or onto the ground. 7. Handling and storage Precautions for safe handling Vapors may form explosive mixtures with air. Do not handle, store or open near an open flame, sources of heat or sources of ignition. Protect material from direct sunlight. Take precautionary measures against static discharges. All equipment used when handling the product must be grounded. Use non -sparking tools and explosion -proof equipment. Do not taste or swallow. Avoid breathing mist or vapor. Avoid contact with skin. Avoid contact with eyes. Avoid prolonged exposure. Avoid contact with clothing. Provide adequate ventilation. Wear appropriate personal protective equipment. Observe good industrial hygiene practices. When using, do not eat, drink or smoke. Wash hands thoroughly after handling. Conditions for safe storage, Store locked up. Keep away from heat, sparks and open flame. Prevent electrostatic charge including any incompatibilities build-up by using common bonding and grounding techniques. Store in original tightly closed container. Store in a cool, dry place out of direct sunlight. Store in a well -ventilated place. Store away from incompatible materials (see Section 10 of the SDS). Keep in an area equipped with sprinklers. 8. Exposure controls/personal protection Occupational exposure limits U.S. - OSHA Components Type Value Form Colloidal silicon dioxide TWA 0.8 mg/m3 Unspecified. (CAS 112945-52-5) 20 mppcf Unspecified. US. OSHA Specifically Regulated Substances (29 CFR 1910.1001-1050) Components Type Value Polyvinyl chloride (CAS STEL 5 ppm 9002-86-2) TWA 1 ppm US. OSHA Table Z-1 Limits for Air Contaminants (29 CFR 1910.1000) Components Type Value Form 2-Propanone (CAS 67-64-1) PEL 2400 mg/m3 1000 ppm Cyclohexanone (CAS PEL 200 mg/m3 108-94-1) 50 ppm Furan, Tetrahydro- (CAS PEL 590 mg/m3 109-99-9) 200 ppm Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 3 / 10 US. OSHA Table Z-1 Limits for Air Contaminants (29 CFR 1910.1000) Components Type Value Form Methyl ethyl ketone (CAS PEL 590 mg/m3 78-93-3) 200 ppm Polyvinyl chloride (CAS PEL 5 mg/m3 Respirable fraction. 9002-86-2) 15 mg/m3 Total dust. US. OSHA Table Z-3 (29 CFR 1910.1000) Components Type Value Colloidal silicon dioxide TWA 0.8 mg/m3 (CAS 112945-52-5) 20 mppcf US. ACGIH Threshold Limit Values Components Type Value Form 2-Propanone (CAS 67-64-1) STEL 750 ppm TWA 500 ppm Cyclohexanone (CAS STEL 50 ppm 108-94-1) TWA 20 ppm Furan, Tetrahydro- (CAS STEL 100 ppm 109-99-9) TWA 50 ppm Methyl ethyl ketone (CAS STEL 300 ppm 78-93-3) TWA 200 ppm Polyvinyl chloride (CAS TWA 1 mg/m3 Respirable fraction. 9002-86-2 ) U.S. - NIOSH Components Type Value Form Colloidal silicon dioxide REL 6 mg/m3 Unspecified. (CAS 112945-52-5) US. NIOSH: Pocket Guide to Chemical Hazards Components Type Value 2-Propanone (CAS 67-64-1) TWA 590 mg/m3 250 ppm Colloidal silicon dioxide TWA 6 mg/m3 (CAS 112945-52-5) Cyclohexanone (CAS TWA 100 mg/m3 108-94-1) 25 ppm Furan, Tetrahydro- (CAS STEL 735 mg/m3 109-99-9) 250 ppm TWA 590 mg/m3 200 ppm Methyl ethyl ketone (CAS STEL 885 mg/m3 78-93-3) 300 ppm TWA 590 mg/m3 200 ppm Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2014 Issue date: 8-4-2014 4 / 10 Biological limit values ACGIH Biological Exposure Indices Components Value Determinant Specimen Sampling Time 2-Propanone (CAS 67-64-1)50 mg/I Acetone Urine Cyclohexanone (CAS 80 mg/I 1,2-Cyclohexan Urine 108-94-1) ediol, with hydrolysis 8 mg/I Cyclohexanol, Urine with hydrolysis Furan, Tetrahydro- (CAS 2 mg/I Tetrahydrofura Urine 109-99-9) n Methyl ethyl ketone (CAS 2 mg/I MEK Urine 78-93-3) * - For sampling details, please see the source document. Exposure guidelines US - California OELs: Skin designation Cyclohexanone (CAS 108-94-1) Can be absorbed through the skin. US - Minnesota Haz Subs: Skin designation applies Cyclohexanone (CAS 108-94-1) Skin designation applies. US - Tennessee OELs: Skin designation Cyclohexanone (CAS 108-94-1) Can be absorbed through the skin. US ACGIH Threshold Limit Values: Skin designation Cyclohexanone (CAS 108-94-1) Can be absorbed through the skin. Furan, Tetrahydro- (CAS 109-99-9) Can be absorbed through the skin. US. NIOSH: Pocket Guide to Chemical Hazards Cyclohexanone (CAS 108-94-1) Can be absorbed through the skin. Appropriate engineering Explosion -proof general and local exhaust ventilation. Good general ventilation (typically 10 air controls changes per hour) should be used. Ventilation rates should be matched to conditions. If applicable, use process enclosures, local exhaust ventilation, or other engineering controls to maintain airborne levels below recommended exposure limits. If exposure limits have not been established, maintain airborne levels to an acceptable level. Eye wash facilities and emergency shower must be available when handling this product. Individual protection measures, such as personal protective equipment Eye/face protection Wear safety glasses with side shields (or goggles). Skin protection Hand protection Wear appropriate chemical resistant gloves. Other Wear appropriate chemical resistant clothing. Respiratory protection If engineering controls do not maintain airborne concentrations below recommended exposure limits (where applicable) or to an acceptable level (in countries where exposure limits have not been established), an approved respirator must be worn. Thermal hazards Wear appropriate thermal protective clothing, when necessary. General hygiene When using, do not eat, drink or smoke. Wash hands after handling and before eating. considerations 9. Physical and chemical properties Appearance Opaque.or Translucent. Physical state Liquid. Form Color Odor Odor threshold pH Melting point/freezing point Initial boiling point and boiling range Flash point Evaporation rate Liquid. Gray or Clear. Solvent. Not available. Not available. Not available. 151 °F (66.11 °C) 14.0 - 23.0 °F (-10.0 - -5.0 °C) 5.5-8 Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 5 / 10 Flammability (solid, gas) Not available. Upper/lower flammability or explosive limits Flammability limit - lower Not available. (%) Flammability limit - upper Not available. (%) Explosive limit - lower (%) Not available. Explosive limit - upper (%) Not available. Vapor pressure Vapor density Relative density Solubility(ies) Solubility (water) Partition coefficient (n-octanol/water) Auto -ignition temperature Decomposition temperature Viscosity Other information Bulk density VOC (Weight %) 10. Stability and reactivity Reactivity Chemical stability Possibility of hazardous reactions Conditions to avoid Incompatible materials Hazardous decomposition products 145mmHg@20C 2.5 0.88 - 0.92 Negligible Not available. Not available. Not available. 1200 - 2500 cP 7.5 lb/gal <510 g/I SQACMD 1168/M316A The product is stable and non -reactive under normal conditions of use, storage and transport. Material is stable under normal conditions. No dangerous reaction known under conditions of normal use. Avoid heat, sparks, open flames and other ignition sources. Avoid temperatures exceeding the flash point. Contact with incompatible materials. Acids. Strong oxidizing agents. Ammonia. Amines. Isocyanates. Caustics. No hazardous decomposition products are known. 11. Toxicological information Information on likely routes of exposure Inhalation May be fatal if swallowed and enters airways. Vapors have a narcotic effect and may cause headache, fatigue, dizziness and nausea. Prolonged inhalation may be harmful. May cause irritation to the respiratory system. Skin contact Causes skin irritation. Eye contact Causes serious eye irritation. Ingestion May be fatal if swallowed and enters airways. Harmful if swallowed. Symptoms related to the Symptoms may include stinging, tearing, redness, swelling, and blurred vision. Skin irritation. May physical, chemical and cause redness and pain. Symptoms of overexposure may be headache, dizziness, tiredness, toxicological characteristics nausea and vomiting. Information on toxicological effects Acute toxicity May be fatal if swallowed and enters airways. Narcotic effects. May cause respiratory irritation. Components Species Test Results Cyclohexanone (CAS 108-94-1) Acute Dermal LD50 Rabbit 948 mg/kg Inhalation LC50 Rat 8000 ppm, 4 hours Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 6 / 10 Components Species Test Results Oral LD50 Rat 1540 mg/kg * Estimates for product may be based on additional component data not shown. Skin corrosion/irritation Causes skin irritation. Serious eye damage/eye Causes serious eye irritation. irritation Respiratory or skin sensitization Respiratory sensitization Not available. Skin sensitization This product is not expected to cause skin sensitization. Germ cell mutagenicity No data available to indicate product or any components present at greater than 0.1 % are mutagenic or genotoxic. Carcinogenicity Suspected of causing cancer. In 2012 USEPA Integrated Risk Information System (IRIS) reviewed a two species inhalation lifetime study on THE conducted by NTP (1998). Male rats developed renal tumors and female mice developed liver tumors while neither the female rats nor the male mice showed similar results. Because the carcinogenic mechanisms could not be identified clearly in either species for either tumor, the EPA determined that the male rat and female mouse findings are relevant to the assessment of carcinogenic potential in humans. Therefore, the IRIS review concludes that these data in aggregate indicate that there is "suggestive evidence of carcinogenic potential" following exposure to THE by all routes of exposure. This product contains polyvinyl chloride (PVC) that is not a fabricated product, and is therefore, defined and regulated as a toxic and hazardous substance under 29 C.F.R. § 1910.1017 due to the presumed presence of residual vinyl chloride monomer. The concentrations of residual vinyl chloride calculated to be contained in this product are well below the threshold for classification in accordance with 29 C.F.R. § 1910.1200. IARC Monographs. Overall Evaluation of Carcinogenicity Colloidal silicon dioxide (CAS 112945-52-5) 3 Not classifiable as to carcinogenicity to humans. Cyclohexanone (CAS 108-94-1) 3 Not classifiable as to carcinogenicity to humans. Polyvinyl chloride (CAS 9002-86-2) 3 Not classifiable as to carcinogenicity to humans. OSHA Specifically Regulated Substances (29 CFR 1910.1001-1050) Polyvinyl chloride (CAS 9002-86-2) Cancer Reproductive toxicity This product is not expected to cause reproductive or developmental effects. Specific target organ toxicity - Respiratory tract irritation. Narcotic effects. single exposure Specific target organ toxicity - Not classified. repeated exposure Aspiration hazard May be fatal if swallowed and enters airways. Chronic effects Prolonged inhalation may be harmful. 12. Ecological information Ecotoxicity The product is not classified as environmentally hazardous. However, this does not exclude the possibility that large or frequent spills can have a harmful or damaging effect on the environment. Components Species Test Results Cyclohexanone (CAS 108-94-1) Aquatic Fish LC50 Fathead minnow (Pimephales promelas) 481 - 578 mg/l, 96 hours Estimates for product may be based on additional component data not shown. Persistence and degradability No data is available on the degradability of this product. Bioaccumulative potential No data available. Partition coefficient n-octanol / water (log Kow) 2-Propanone (CAS 67-64-1) -0.24 Cyclohexanone (CAS 108-94-1) 0.81 Furan, Tetrahydro- (CAS 109-99-9) 0.46 Methyl ethyl ketone (CAS 78-93-3) 0.29 Mobility in soil No data available. Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 7 / 10 Other adverse effects No other adverse environmental effects (e.g. ozone depletion, photochemical ozone creation potential, endocrine disruption, global warming potential) are expected from this component. 13. Disposal considerations Disposal instructions Collect and reclaim or dispose in sealed containers at licensed waste disposal site. This material and its container must be disposed of as hazardous waste. Do not allow this material to drain into sewers/water supplies. Do not contaminate ponds, waterways or ditches with chemical or used container. Dispose of contents/container in accordance with local/regional/national/international regulations. Local disposal regulations Dispose in accordance with all applicable regulations. Hazardous waste code The waste code should be assigned in discussion between the user, the producer and the waste disposal company. Waste from residues / unused Dispose of in accordance with local regulations. Empty containers or liners may retain some products product residues. This material and its container must be disposed of in a safe manner (see: Disposal instructions). Contaminated packaging Empty containers should be taken to an approved waste handling site for recycling or disposal. Since emptied containers may retain product residue, follow label warnings even after container is emptied. 14. Transport information DOT UN number UN1133 UN proper shipping name Adhesives Transport hazard class(es) Class 3 Subsidiary risk - Label(s) 3 Packing group II Special precautions for user Read safety instructions, SIDS and emergency procedures before handling. Special provisions T11, TP1, TP8, TP27 Packaging exceptions 150 Packaging non bulk 201 Packaging bulk 243 IATA UN number UN1133 UN proper shipping name Adhesives Transport hazard class(es) Class 3 Subsidiary risk - Packing group II Environmental hazards No. ERG Code 3L Special precautions for user Read safety instructions, SIDS and emergency procedures before handling. IMDG UN number UN1133 UN proper shipping name ADHESIVES Transport hazard class(es) Class 3 Subsidiary risk - Packing group II Environmental hazards Marine pollutant No. Ems F-E, S-D Special precautions for user Read safety instructions, SDS and emergency procedures before handling. Transport in bulk according to Not available. Annex II of MARPOL 73/78 and the IBC Code Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 8 / 10 15. Regulatory information US federal regulations This product is a "Hazardous Chemical' as defined by the OSHA Hazard Communication Standard, 29 CFR 1910.1200. All components are on the U.S. EPA TSCA Inventory List. TSCA Section 12(b) Export Notification (40 CFR 707, Subpt. D) Not regulated. OSHA Specifically Regulated Substances (29 CFR 1910.1001-1050) Polyvinyl chloride (CAS 9002-86-2) Cancer Central nervous system Liver Blood Flammability CERCLA Hazardous Substance List (40 CFR 302.4) 2-Propanone (CAS 67-64-1) LISTED Cyclohexanone (CAS 108-94-1) LISTED Furan, Tetrahydro- (CAS 109-99-9) LISTED Methyl ethyl ketone (CAS 78-93-3) LISTED Superfund Amendments and Reauthorization Act of 1986 (SARA) Hazard categories Immediate Hazard - Yes Delayed Hazard - No Fire Hazard - Yes Pressure Hazard - No Reactivity Hazard - No SARA 302 Extremely hazardous substance Not listed. SARA 311/312 Hazardous No chemical SARA 313 (TRI reporting) Not regulated. Other federal regulations Clean Air Act (CAA) Section 112 Hazardous Air Pollutants (HAPs) List Not regulated. Clean Air Act (CAA) Section 112(r) Accidental Release Prevention (40 CFR 68.130) Not regulated. Safe Drinking Water Act Not regulated. (SDWA) Drug Enforcement Administration (DEA). List 2, Essential Chemicals (21 CFR 1310.02(b) and 1310.04(f)(2) and Chemical Code Number 2-Propanone (CAS 67-64-1) 6532 Methyl ethyl ketone (CAS 78-93-3) 6714 Drug Enforcement Administration (DEA). List 1 & 2 Exempt Chemical Mixtures (21 CFR 1310.12(c)) 2-Propanone (CAS 67-64-1) 35 %WV Methyl ethyl ketone (CAS 78-93-3) 35 %WV DEA Exempt Chemical Mixtures Code Number 2-Propanone (CAS 67-64-1) 6532 Methyl ethyl ketone (CAS 78-93-3) 6714 US state regulations US. Massachusetts RTK - Substance List 2-Propanone (CAS 67-64-1) Colloidal silicon dioxide (CAS 112945-52-5) Cyclohexanone (CAS 108-94-1) Furan, Tetrahydro- (CAS 109-99-9) Methyl ethyl ketone (CAS 78-93-3) US. New Jersey Worker and Community Right -to -Know Act 2-Propanone (CAS 67-64-1) Cyclohexanone (CAS 108-94-1) Furan, Tetrahydro- (CAS 109-99-9) Methyl ethyl ketone (CAS 78-93-3) Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 9 / 10 Polyvinyl chloride (CAS 9002-86-2) US. Pennsylvania Worker and Community Right -to -Know Law 2-Propanone (CAS 67-64-1) Colloidal silicon dioxide (CAS 112945-52-5) Cyclohexanone (CAS 108-94-1) Furan, Tetrahydro- (CAS 109-99-9) Methyl ethyl ketone (CAS 78-93-3) US. Rhode Island RTK 2-Propanone (CAS 67-64-1) Cyclohexanone (CAS 108-94-1) Furan, Tetrahydro- (CAS 109-99-9) Methyl ethyl ketone (CAS 78-93-3) US. California Proposition 65 California Safe Drinking Water and Toxic Enforcement Act of 1986 (Proposition 65): This material is not known to contain any chemicals currently listed as carcinogens or reproductive toxins. This product contains trace amounts of chemicals known to the state of California to cause cancer. Under normal use conditions, exposure to these chemicals at levels above the State of California "No significant Risk Level' (NSRL) are unlikely. The use of proper personal protective equipment (PPE) and ventilation guidelines noted in Section 8 will minimize exposure levels to these chemicals. International Inventories Country(s) or region Inventory name On inventory (yes/no)" Australia Australian Inventory of Chemical Substances (AICS) Yes Canada Domestic Substances List (DSL) Yes Canada Non -Domestic Substances List (NDSL) No China Inventory of Existing Chemical Substances in China (IECSC) Yes Europe European Inventory of Existing Commercial Chemical No Substances (EINECS) Europe European List of Notified Chemical Substances (ELINCS) No Japan Inventory of Existing and New Chemical Substances (ENCS) Yes Korea Existing Chemicals List (ECL) Yes New Zealand New Zealand Inventory Yes Philippines Philippine Inventory of Chemicals and Chemical Substances Yes (PICCS) United States & Puerto Rico Toxic Substances Control Act (TSCA) Inventory Yes *A "Yes" indicates this product complies with the inventory requirements administered by the governing country(s). A "No" indicates that one or more components of the product are not listed or exempt from listing on the inventory administered by the governing country(s). 16. Other information, including date of preparation or last revision Issue date 04-August-2014 Revision date 15-December-2014 Version # 02 HMIS® ratings Health: 2 Flammability: 3 Physical hazard: 0 Disclaimer The information in the sheet was written based on the best knowledge and experience currently available. Oatey PVC Heavy Duty Clear or Gray Cement SIDS US 920700 Version #: 02 Revision date: 12-5-2017 Issue date: 8-4-2014 10 / 10 APPENDIX B Brownfields Guidance — Vapor Intrusion Assessment Work Plan & Report Checklist (July 2021) PRELIMINARY NCDEQ BROWNFIELDS PROGRAM GUIDANCE Vapor Intrusion Assessment Work Plan & Report Checklist NCDEQ Brownfields Program July 2021 This guidance is to be used for Brownfields Properties to evaluate vapor intrusion concerns. Vapor intrusion (VI) assessment work plans and reports for NC Brownfields properties must use this checklist. The completed checklist must be provided with each of the submitted work plan and subsequent report documents and confirm the following: • The type of information detailed below has been included; and • The format and tables provided below were used to complete the work plan. The benefits of following this checklist include: • Consistency and predictability in the assessment process; • The most efficient process for preparing and reviewing work plans and reports prepared for Brownfields properties; • Maximize usability of the data by the NC Brownfields Program; • Minimize DEQ review time; and • Reduce costs and delays associated with additional mobilizations. Assessment that is conducted without approval from the NC Brownfields Program is done at your own risk and may not be accepted by the Brownfields Program. The Program will be using this checklist to conduct its reviews. The VI assessment work plan and report must be signed and sealed by a NC licensed geologist or engineer. Plan to allow sufficient review time for Work Plans and Reports. The Program is in high demand and your Brownfields Project Manager is managing multiple projects. The DEQ Brownfields Program has a vested interest in keeping all of our projects on schedule, including yours. To help, you should maintain close coordination and consultation with your Brownfields Project Manager (whether it's with the Brownfields agreement development staff or with the Property Management Unit staff afterwards) to determine an approximate time range for review and allow for that in planning your project schedule. The Prospective Developer, their technical, and legal team shall coordinate to ensure the validity of collected data which forms the basis for environmental risk decision making regarding vapor intrusion potential and mitigation measures at the Brownfields Property. Note: Work plans that follow this checklist outline can be submitted either as a standalone document or as part of a work plan that encompasses other assessment activities (i.e. soil, groundwater, etc.) required by the Brownfields Program. VIMS Assessment Checklist Version 1, July 2021 Title Page The title page should include the following information. ❑ Title of work plan or report ❑ Brownfields Project Name (not the development name) ❑ Brownfields Project Number ❑ Date (updated with each revision) ❑ Revision Number ❑ Firm PE/PG License Number ❑ Individual PE/PG seal & signature ❑ Contact information for Developer, Consultant, and Project Manager (or BPMU Staff) Section 1— Introduction Provide a BRIEF summary of the history of the property that contains the following: ❑ History in the Brownfields Program or involvement by another DEQ Section such as DSCA ❑ Provide a chronology of former and/or current uses ❑ List potential sources of vapor intrusion (e.g. off -site migration of contaminants, on -site releases, chlorinated solvent use, especially the presence or suspected presence of trichloroethylene (TCE), groundwater contamination, and preferential pathways such as utility corridors ❑ List RECs from a Phase I ESA and their location on the Brownfields Property ❑ Provide a conceptual site model for the Brownfields Property on which to base the data gap evaluation ❑ Indicate if the scope of work was negotiated during a Brownfields Data Gap Meeting, etc. Provide a summary of the redevelopment plans for the Brownfields Property that contains the following: ❑ Type of proposed use (townhomes, apartments, mixed -use, retail, etc.) ❑ Demolition, new construction and foundation type ❑ Re -use of existing structures ❑ Presence of elevators & stairwells ❑ How the new building configuration/parking areas relate to the location, if known, of contamination at the Brownfields Property ❑ Proposed and existing building/unit square footage to be assessed. ❑ Indicate that the proposed use has been approved or is under evaluation by the Brownfields Program at the time of submittal. ❑ Include a discussion of the following and reference each appendix or attachment where located: ❑ Figure 1 - Site location map on USGS topographic map, north arrow, graphic scale, site outline ❑ Figure 2 — see format requirements in Section 8 below - Site redevelopment plans superimposed on a high -quality aerial photograph of the site VIMS Assessment Checklist Version 1, July 2021 ❑ Table 1 — see example Tables in Section 8 below: With property identifying information in a summary table format: Brownfield Project Number, Parcel Number(s), address, site acreage, former or current use, & proposed use Section 2 — Scope of Work ❑ Provide a general description of proposed scope of work covered in this plan (e.g., 5 soil gas sampling points, 6 sub -slab points, 4 indoor air, 1 ambient air); Note for any Brownfields Property, baseline data for each applicable environmental medium as determined by DEQ is required. ❑ Discuss samples to be collected by media and source area/location. Generally, the reasoning for the sample locations selected. ❑ Include a discussion of the following and reference each appendix or attachment where located: ❑ Table 2 — see example Tables in Section 8 below - Briefly list and describe the vapor intrusion data gaps the assessment is attempting to fill and note other pertinent information in a sampling summary, including background and QA/QC samples. ❑ Figure 3 — see format requirements in Section 8 below - Proposed Sample Location Map - Provide a figure in the work plan noting the location of each of the proposed soil gas, sub -slab, or indoor air samples overlain with planned building layouts, historical areas of concern, and previously identified impacts. Note that DEQ DWM VI Guidance states that "Due to spatial variability in sub -slab soil gas concentrations over a slab, DWM generally recommends the collection of one sample per 1,000 square feet of first floor building area." Sampling density could vary due to site -specific considerations, and with prior approval from DEQ. Section 3 — Sampling Methodolou For all air sampling planned, provide the following information in relevant section 3.a or 3.b discussed below: ❑ Reference the most current versions of DEQ DWM and ITRC guidance documents applicable to vapor intrusion sampling, and any other applicable standard operating procedures. Note any deviations or methodology planned that is not covered by such guidance. ❑ Discuss timing of sampling and whether indoor air and sub -slab sampling will be occurring contemporaneously; if so plan to conduct indoor air sampling first so that the creation of the sub -slab point does not influence the indoor air data. ❑ State the analytes for which each sample will be analyzed for (briefly) and include the analytes that are specifically being requested for reporting. Reference Table 2. ❑ Indicate if mercury has previously been assessed for/detected in soil or groundwater and whether mercury vapor intrusion concerns are present. ❑ Discuss how and when vacuum readings will be collected (for Summa canisters) — field vacuum readings should be recorded on the chain of custody forms for ease in comparing to reported laboratory receipt vacuum readings. VIMS Assessment Checklist Version 1, July 2021 Note: Per DEQ DWM VI Guidance, Summa canisters that have lost greater than 10% of the initial recorded lab vacuum when received in the field will not be used for sampling. It is assumed that Summa canisters are issued with a maximum achievable pressure of 30" Hg. If canisters are received in the field with less than 27" Hg, initial lab pressure measurements should be documented to confirm less than a 10% volume loss or a replacement summa canister obtained. Otherwise, sample results may be rejected. ❑ Provide the sample collection time duration for all samples. ❑ State how duplicate sample(s) will be collected. ❑ Indicate a targeted final vacuum reading of at least -5" Hg. Note if the vacuum measurement is less than this, sample acceptance will be in jeopardy and DEQ Brownfields may request a resample. ❑ Include planned flow rate for Summa canister sampling or time allotting for passive samplers. Note: Per DEQ DWM VI Guidance, the maximum allowable flow rate is 200 mL/min. Section 3.a. Exterior Soil gas / Sub -Slab Sampling ❑ Describe depths of samples to be collected (Reference example Table 2 in Section 8 below) or how that decision will be made in the field, if needed. Refer to DEQ DWM Vapor Intrusion Guidance for reference to minimum depths of samples. ❑ Locate sub -slab samples in areas of the slab that are near known or potential sources of volatile contaminants and in areas that could encourage vapor migration, such as sub - grade trenches, pits, and elevator shafts, but position them at least 5 feet from exterior walls or cracks/penetrations. ❑ Locate sub -slab samples across the building(s) being assessed being mindful of any building features that could indicate the presence of sub -walls or footers that would restrict sub -slab vapor flow. ❑ Describe installation methodology construction details of the sub -slab and/or soil vapor samples, including filter pack and sealants. Use of new and dedicated tubing is required. ❑ Discuss sample collection procedures. Include the following, at a minimum: ❑ Equipment to be used (Summa canisters & size, type of tubing, vapor pins, etc.) ❑ Indicate if sub-slab/exterior soil gas sample points will be permanent or temporary. ❑ Whether Summa canisters are batch- or individually -certified. ❑ Discuss stabilization time of the sampling points prior to sampling. Note: Inadequate stabilization times have been known to impact sample results through the inadvertent collection of vapors off -gassing from soil gas/sub slab installation materials, potentially creating false positive results that would then require a resampling event. Recommended stabilization times are outlined below: VIMS Assessment Checklist Version 1, July 2021 a. Sub -slab with minimally invasive points (e.g. Vapor Pins): Manufacturer's guidelines generally suggest 20 minutes may be sufficient with an airtight cap installed; b. Sub -slab points (other than minimally invasive points): at least 24-48 hours (to be purged at installation and at time of sampling with an air -tight cap in place in the interim); or c. Exterior soil gas points: 48 hours to allow materials used during installation to off -gas prior to sampling (to be purged at installation and at time of sampling with an air -tight cap in place in the interim). ❑ Describe purging methods and volumes — must take into account not only the volume of the tubing but also of the annulus. Stagnant air inside soil gas probes and sampling trains must be purged prior to sample collection. Three to four system purge volumes are recommended as a minimum value. The investigator should use a low purge rate with a maximum of 200 mL/min. ❑ Describe leak check procedures for sub -slab and soil gas samples. Note: helium check of entire sample train is required; a shut-in test is also recommended as a best management practice. ❑ Describe how the helium meter will be connected to the sampling train. Note that directly connecting the helium meter to the sampling train without a backflow preventer is not allowed. ❑ Record the type of material found under the slab or in the soil gas borings. ❑ Record slab thickness for sub -slab samples and provide soil boring logs for soil gas samples. ❑ Discuss sample point abandonment and/or securement (if permanent points) Note: Exterior soil -gas sampling may not necessarily be indicative of site conditions following redevelopment efforts and confirmation sub -slab sampling may be necessary following construction to confirm that a potential vapor intrusion pathway is not present. Section 3.b. Indoor Air / Crawl Space Sampling ❑ Include a chemical survey of any potential interference compounds stored or used inside the building (Refer to example Indoor Air Building Survey and Sampling Form that will be completed for each distinct area of the Brownfields Property under assessment. The Indoor Air Form is included within the DEQ DWM VI Guidance). ❑ Describe steps to remove any potential interference compounds from the sampling area sufficiently ahead of the sampling event (The DEQ DWM VI Guidance recommends removal within 24-72 hours and typically within 48 hours of sampling as indicated on the Indoor Air Building Survey and Sampling Form). ❑ Schedule sampling to minimize any potential for interference from compounds used during construction or finishing of new buildings, etc. Describe any sampling constraints. ❑ Describe building conditions (including HVAC conditions) that will exist within 24 hours prior to and during the sampling. ❑ Discuss sample collection procedures. Include the following, at a minimum: VIMS Assessment Checklist Version 1, July 2021 ❑ Equipment to be used (passive samplers, Summa canisters & size, etc.) ❑ Placement height of Summa canisters or passive samplers for indoor air and ambient air collection to account for site specific breathing zone height of anticipated occupants. ❑ Description of the indoor air summa canisters or passive samplers proposed placement location including use of space (e.g., ground floor garage, first floor living space, office, mechanical equipment room, etc.). ❑ Methods implemented to reduce or eliminate access to building where indoor air sampling is occurring ❑ Whether Summa canisters are batch- or individually -certified. Note: per DEQ DWM VI Guidance, indoor air samples should utilize individually certified Summa canisters ❑ Provide how often and when exterior ambient air samples will be collected (typically, one sample per day per sampling event) ❑ If crawl space samples are proposed, include details on: ❑ Presence of moisture/VI barrier ❑ Ceiling structure of crawlspace ❑ Exterior openings or ventilation features ❑ Height across entire footprint of crawl space ❑ Walls/vertical structures separating crawl space areas ❑ Additional pertinent details of crawl space construction Section 4 — Laboratory Analyses ❑ Include the proposed analyte list and EPA Method numbers prepared in consultation with your DEQ Brownfields Project Manager; ❑ Minimum analytical requirements are described as outlined below: a. Full TO-15 list is required initially for soil gas, sub -slab, and indoor air analyses. b. Subsequent modifications of the analyte list, e.g., once sub -slab gas results are known, may be made with advance approval from your Brownfields Project Manager. Note: Not all laboratories use the same standard analyte list. Ensure that naphthalene is included. but exclude acrolein unless it is a suspected site contaminant. Because of the extremely limited analyte list for the TO-15 SIM method, discuss its use with your DEQ Brownfields Project Manager prior to implementation. When approved for use, this method should be used for both sub -slab and indoor air samples for comparison purposes. ❑ Discuss any proposed limitations on the contaminants of concern, if any, and the reason for such. limitation (sufficient previous data, indoor air interferences, etc.). ❑ Discuss laboratory certifications. Please note, NC does not certify laboratories for air samples. Please specify what certification the proposed air laboratory holds. ❑ Indicate the Reporting Limits/Method Detection Limits will meet applicable screening criteria (to the extent feasible). Include reporting of J-flags to meet criteria. VIMS Assessment Checklist Version 1, July 2021 ❑ Indicate what Level QA/QC will be reported by the laboratory. Level II QA/QC is typically acceptable. Section 5 — QA/QC ❑ Specify the duplicate sample frequency. Minimum requirement: 1 duplicate per 20 samples, per media, per method, per day of sampling. ❑ Discuss chain of custody and shipping. Section 6 — Investigation Derived Waste (IDW) Management ❑ Discuss what IDW will be generated and how it is proposed to be managed. Management recommendations should be in accordance with 15A NCAC 02T.1503 and 15A NCAC 02H. 0106. Generally, if the Brownfields Property has not previously been assessed, all IDW must be containerized and characterized prior to management. Previous assessment data that indicate no Hazardous Waste (listed or characteristic) is likely to be encountered in the area of proposed assessment will be required before thin spreading of IDW on -site is permitted. Section 7 — Reporting This section should discuss the components of the assessment report which will be prepared as a result of the implementation of the work plan. At a minimum, the report shall include: ❑ Reporting/summary of site work conducted for all sections outlined above in this checklist; ❑ Summary of findings and possible recommendations; ❑ All applicable tables and figures outlined below with the addition of: ❑ Tables for tabulated analytical data per media sampled and analyzed, compared against applicable screening levels; any non -detectable levels should be reported as less than the applicable reporting limit noting any reporting limits that exceed the respective screening level. ❑ Figure(s) depicting actual sample locations, with the results for each media depicted, graphic scale and north arrow. Modify the figures as appropriate in the report if there was variance with these locations during the sampling event; ❑ Detail on building additions, slab types and sub -grade features such as the locations of crawl spaces, tunnels, basements, sub -grade walls, and footer walls encountered during assessment. ❑ Firm PE/PG License Number; and ❑ Individual PE/PG seal & signature VIMS Assessment Checklist Version 1, July 2021 Section 8 — Example Tables and Format for Figures ❑ Table 1 — Property Summary Table 1: Property Summary BF Project No. Parcel No. Address Site Acreage Former/ r nt Current e REC Proposed Use ❑ Table 2 — Sampling Summary Table 2: Sampling Summar Data Parcel/Bldg Sampling Type Number Depth Analytical Detection range for Gap No. Objective of Sample of Samples of Samples Program TCE (if applicable) ❑ Figure 1— Site Location Map (topographic map base) with north arrow, graphic scale, and site outline. ❑ Figure 2 — Proposed Redevelopment to include the following details: ❑ All current and proposed structures ❑ Brownfields Property Boundary ❑ Which structures will be removed/renovated ❑ Proposed future use of each building ❑ Figure 3 - Proposed Sample Location Map (work plan) or Sample Location Map to include the following details: ❑ High quality aerial and/or floor plan base (interior samples) ❑ Overlain planned or existing (to remain) building layout ❑ North arrow ❑ Graphic scale ❑ Historical sample locations (if applicable) ❑ RECs or other areas of concern ❑ Proposed sample locations for each medium proposed for sampling ❑ Sample identification labels ❑ Appendix — Tabular Summary of Historical Analytical Data VIMS Assessment Checklist Version 1, July 2021