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BRTTLE MTN. GOLD SL I~19-672-3363 JUL ~93 1244 No .008 P.04 <br />STEEPEN ROBERTSON ANO KIR57EN <br />Ms. Alana Scott <br />July 28, 1993 <br />Page 3 <br />liquefy and to have a reduced shear strength at the start of the earthquake which <br />is equivalent to its post-liquefaction residual or steady-state stre~tgth. Since the <br />strength of a soil cannot fall below this value, this represents the worst condition <br />possible during undrained loading (Finn, 1982) such as would arise during an <br />earthquake. <br />Dynamic deformation calculations utilized a M=7.5 earthquakeitather than the <br />M=6.8-7.0 maximum credible earthquake event determined for the project site. <br />Using the greater magnitude earthquake results in higher deformations. <br />• Pseudostatic analyses assume that the earthquake ground motions act <br />perpendicular to the longitudinal axis of the dam and out of the dam face. Actual <br />earthquake ground motions are random and in all directions. <br />~~~ <br />Reducing the conservatism of the input parameters results in increasing the factor of ~~~~ <br />safety. Utilizing a friction angle of 38 degrees and cohesion of 200 psf for the 9P° <br />embankment fill and increasing the friction angle for non-saturated tailings to 31 degrees ' av,,ir~~Y <br />while maintaining all other parameters as per the previous analyses, the pseudostatic ~ <br />(a=.O.15g) factor of safety for the upstream face rotational and wedge failure surfaces <br />depicted on Figure 4.1 in the report increase to 1.39 and 1.21, respedtively. These <br />factors of safety correspond to the stability of the structure immediately following <br />wnstruction of the raise and prior to deposition of any tailings upstream of the raise. <br />As subsequent tailings deposition raises the tailings surface elevation, stability of the ~ <br />upstream face will incTCase..due.t~.the buttressi~ect of the tailing . t ft of <br />tailings deposition after construction of the raise, the pseudostatic factor of safety for the <br />wedge failure surface depicted on Figure 4.1 in the report increases to 1.35. <br />The Orobability_that a_large_eazthquake_will._o~c~~r at h aite~rior to th accumulation <br />of sufficient tailin s to buttress tlte.taise and increase the factor of safes above 1.3 is <br />extremely low. Assuming 1 year following construction of the raise ~is required to <br />increase the tat togs level by 5 ft~there is only a .00006 to .001 probability of <br />experiencing 0.6g al the project site dunng this period as per the original seismological <br />site assessment. <br />~rior to deposition of 20 ft of tailings upstream of the dam raise, the tailings surface will <br />be below the elevation of the crest of the main embankment (elev 8590). Even in the <br />event of a total failure of the raise prior to this point all ngs would be contained by <br />the main embankment. As the tailings level rises above elev 8590 the minimum <br />pseudostatic factor of safety for an upstream failure using a seismic coefficient of O.15g <br />will be well above 1.3. The minimum factors of safety for potential down9trram failures <br />will approach the values indicated in the report as the tailings level continues to rise. <br />