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equated to um. in the Makdisi and Seed (1977) procedure. Deformations are estimated using the <br /> "Newmark" chart developed by Makdisi and Seed(1977). <br /> SHAKE requires unit weight, shear-wave velocity, and shear modulus and damping characteristics to <br /> be input for each soil layer. Design earthquake motion is input as an acceleration-versus-time record. <br /> When evaluating the results of a seismic deformation analysis, the effect of the net slope movement <br /> should be considered. The most severe consequence of slope movement would be damage to the <br /> composite base lining or LCRS of the landfill. While it is difficult to assess what deformation would <br /> damage a composite base lining system,the current practice is to limit deformations to 30 cm(I foot) <br /> or less(Sharma and Lewis, 1994). <br /> 3.3 Stability Analysis <br /> The stability analyses are based on several measured and assumed material properties. The material <br /> properties used in the analyses and the results of the analyses are presented below. Calculations are <br /> included in Appendix B. <br /> 3.3.1 Material Properties <br /> The single-composite lining system for the WMU FU-10 base will consist of a 2-foot thick clay liner <br /> overlain by a double-sided textured HDPE geomembrane, cushion geotextile, and granular blanket <br /> LCRS. The liner on the northern slope will consist of a geosynthetic clay liner(GCL) overlain by a <br /> single-sided textured HDPE geomembrane and a geocomposite drainage net (GDN). The GDN will <br /> have a nonwoven geotextile bonded to one side of the geonet. The geonet side will be placed against <br /> the smooth side of the HDPE geomembrane. <br /> Material properties for use in the stability analyses were based on actual test data from previous <br /> WMUs constructed at the site and a review of published values in the literature. Table 3-1 presents <br /> the assumed material properties used in the stability analysis. <br /> The interface shear strength for the base lining system of WMU FU-10 was estimated using <br /> laboratory testing performed for the construction of the WMUs D-95, D-97,D-98,D-99,D-00,D-0 1, <br /> D-02, FU-03, FU-04, FU-05, FU-06, and FU-08 lining systems (CH2M HILL 1995b and 1997c, <br /> Vector 1999a and 1999b, EMCON/OWT 2000, Holdredge and Kull 2001,Vector 2002,Vector 2003, <br /> Vector 2004, Vector 2005, Vector 2006, Vector 2008). These interface shear strength results were <br /> assumed to be representative of those in WMU FU-10 because WMU FU-10 will be constructed <br /> using onsite soils and geosynthetic materials very similar to those used in these previously <br /> constructed WMUs. <br /> The interface shear strength properties used for the side slope liners were estimated using laboratory <br /> testing performed for the construction of WMUs D-97, D-98, D-00, D-01, D-02, FU-03, FU-04, FU- <br /> 05,FU-06 and FU-08 (CH2M HILL 1997c,Vector 1999x,EMCON/OWT 2000, Holdredge and Kull <br /> 2001, Vector 2002, Vector 2003, Vector 2004, Vector 2005, Vector 2006, Vector 2008). These <br /> interface shear strength results were assumed to be representative of those in WMU FU-10 because <br /> the same combination of materials was used in these previously constructed WMUs. Table 3-1 <br /> presents the assumed material properties used in the stability analysis. <br /> WMU FU-10 REPORT 34 <br />