The URL can be used to link to this page

Home My WebLink About20210418_NCGSTrip Report of Dr. Kenneth B. Taylor, PG (#1835) State Geologist of North Carolina to the Wake Stone Corporation Triangle Quarry and the Knightdale Quarry May 18, 2021 Arrived at 10:30 am to the Triangle Quarry office just west of Harrison Avenue in Cary and southwest of William B. Umstead State Park. I met with three people at the office -- David F. Lee, Wake Stone Corporation's Head Geologist & Environmental Supervisor; L. Cole Atkins, Geologist and Environmental Specialist; and Hunter Bratton, Triangle Quarry Superintendent. We went to the bottom of the pit which is at a depth of below sea -level. The rock inside the quarry is highly jointed which results in easier removal and transport to the rock crushers. There are several diabase dikes visible in the quarry face, including a large one that trends across almost the entire quarry. The rocks being quarried are two types: CZrg — Reedy Creek metagranodiorite, a metamorphically altered igneous rock on the eastern side of the quarry and CZbr — Big Lake -Raven Rock schist, a metamorphosed mudstone. There are also pre - metamorphic diabase dikes in the quarry, which demonstrates that these igneous rocks intruded into rocks which were later metamorphically altered. Following the quarry tour, David Lee, Cole Atkins, and I went to see drill core which is housed at the Knightdale Quarry. Two sets of core were shown that were both drilled in the Odd Fellows Track on either side of the creek. The rock alongside the creek is strongly foliated. In order to demonstrate rock strength, two 180-foot cores were drilled. On one side of the creek, the core was drilled parallel to the foliation. On the other side of the creek the hole was drilled vertically, cutting across the foliation at about sixty degrees. Eighteen boxes of core were laid out on two rows of tables. Each box contained 10 feet of core. The total length of each core was 180 feet. David Lee used a spray water bottle to allow the detail in the core to be observed. There were many intrusives in these cores. Most were mobilized hot water intrusives of mineralized water. Some were intrusive igneous rock which has crystalized at depth. Mineral crystals grow large when the intrusives cool very slowly. In a fast cooling environment, the mineral grains will be small. David also used an acid bottle to test for calcite which bubbles when acid is applied. There were many places in the core where quartz and feldspar intrusives were parallel to observed foliation. A photograph was shared which showed a 10-feet section of core that had been recovered without breakage. Foliations can be surfaces in the cores where there will be breakage. For the vertically drilled core, the rock shattered along the foliations. Boxes of those cores showed discs of rock, where breakage was along the foliation plane. In contrast, the core drilled on an incline, the foliation was seen as a series of parallel zones perpendicular to the core barrel. Seeing the same rock drilled vertically (with failure in the rock along the foliation plane) and little to no failure of the inclined core where the foliation was perpendicular to the core barrel was an excellent example Page 1 of 2 in understanding rock mechanics. One might think that one rock is weak and can be easily broken, but that is not the case. Both cores are from the same rock. The orientation of the core barrel demonstrates that the foliation in the rock controls the rock's strength. Mining a site in lifts where the material lifts are parallel to the foliation will yields strong rock. In contrast, mining the rock without regard to the orientation of the foliation could result in wasted rock due to lots of fractures parallel to the foliation direction. In places on the proposed expansion of the mine site, where there is a proposed bridge for heavy- duty haul trucks over a creek, it would be a prudent idea to monitor the induced vibrations from the trucks to see if surface rock begins to split along the foliation plane. If such fracturing were to occur, there could be migration of creek water into the subsurface. Could such water migration impact the bridge or the haul road? That would require additional geotechnical analyses. The bottom line is that the two cores drilled on the creek demonstrated the rock is very strong and competent, so long as it is mined parallel to the existing rock foliation. This text was expanded on October 29, 2021 to provide a clearer explanation of the role foliation plays in rock strength. Page 2 of 2 � I ..................... .......... .............