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Martin Marietta Materials <br />Spec -Agg 2014 Annual Report <br />C A&If:1111111 7_1�7F3�� ►I`�7T�1�1��1 -� <br />The stability of the rock mass that forms the quarry walls is primarily controlled by the presence of rock <br />discontinuities, such as joints, foliation, and faults. Discontinuities can create surfaces for sliding, and the <br />intersections of multiple discontinuities can define the boundaries of wedges or blocks that have the <br />potential to slide. The orientations of discontinuity sets vary considerably throughout the quarry. <br />Therefore, it is possible that discontinuity orientations in a specific location of the quarry deviate from the <br />discontinuity orientations assumed for the analyses presented in this report. <br />6.1 Evaluation of Discontinuity Measurements <br />Representative discontinuity orientations for the quarry walls are required in order to evaluate the stability <br />of the rock mass that forms the mine walls. Representative orientations for each discontinuity set <br />observed were developed by analyzing the thousands of measurements collected since the beginning of <br />the project. In the 2013 annual report, a total of eight (8) representative discontinuity sets were identified <br />and analyzed for slope stability. For the 2014 annual report, we evaluated how the data collected over <br />the past year compares with the previous geologic structure dataset and the representative orientations of <br />observed discontinuity sets previously selected for analysis. Using this approach, we are able to assess <br />possible emerging trends related to the shift in orientation of the various observed discontinuity sets as <br />more of the rock mass is exposed during mining operations. Our slope stability analysis for the 2014 <br />annual report is based on the updated representative discontinuity orientations based on the data <br />collected during this study. <br />We analyzed the discontinuity orientation data using DIPS 6.008 (Rocscience, 2013). The program <br />enables plotting of individual data points, and offers several methods of data analysis, including <br />contouring or cluster analysis. <br />We plotted the individual data points collected during our November 2013 and March 2014 site visits over <br />contours for the entire dataset, and alongside representative discontinuity orientations used for the 2013 <br />annual report (Figure 4). In general, the data collected during our recent visits is consistent with the <br />representative orientations of discontinuity sets observed in previous years, with a few exceptions. These <br />exceptions include: 1) In 2013 annual report, the absence of the previously recognized joint set P -5 was <br />observed again this year during this study, 2) absence of F -3 identified in the previous report (prior to <br />2013), and 3) the emerging of new representative joint set (P -7) identified in 2013 annual report (Figure <br />6). <br />We plotted and contoured individual data points from the 2013 -2014 annual site visits to help visualize the <br />clustering of data from the recent measurements and to develop representative discontinuity orientations <br />for use in kinematic analyses performed as part of this annual report (Figure 6). Individual data points are <br />plotted by area (Main Pit versus Southern Expansion Area) to assist in evaluating whether some of the <br />data trends are location specific. Representative discontinuity orientations of the nine (9) previously - <br />recognized discontinuity sets from the 2012 annual report and 2013 report are shown for comparison. <br />As shown in Figure 6, there is general consistency between the representative discontinuity orientations <br />previously used for slope stability analysis and the contour peaks based on clustering of the new data, <br />with some notable differences. We did not measure discontinuities this year that are representative of <br />March 31, 2014 Page 8 Lachel & Associates, Inc. <br />Project 13364013 00 02014 All Rights Reserved <br />