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TECHNICAL MEMORANDUM <br /> Page 6 <br /> June 3, 1992 <br /> SAC31583.AC.ZZ <br /> resultant ground motions expected at the site. <br /> .Assuming stiff soils site conditions, a maximum peak bedrock acceleration of 0.188 also <br /> corresponds to a ground surface acceleration of approximately 0.1.88 (Seed and Idriss, 1982). <br /> This maximum ground surface acceleration, which corresponds to a Magnitude 7 MCI, was <br /> used in evaluating the potential for permanent slope displacement that may result from <br /> earthquake-induced ground motions. <br /> Site Conditions <br /> The information presented in this section is based on a review of existing data, the results of <br /> the soil borings and laboratory testing, and observations during site visits. The subsection on <br /> subsurface conditions presents our interpretation of the conditions based on this information. <br /> Subsurface Conditions <br /> The soil encountered during the field exploration generally consists of interbedded layers of <br /> sand, silt, and lean clay. The cohesive materials are generally of very stiff to hard <br /> iconsistency. The cohesionless materials a characterized as dense to very dense. The <br /> soil deposits at the site were found to.be heterogeneous and laterally and vertically <br /> discontinuous. Based on the four soil borings performed for this geotechnical exploration, <br /> the subsurface soils at the site can be generally divided into six layers of interest. It should <br /> be noted that the generalized subsurface profile described below has been greatly simplified <br /> for purpose of settlement and stability analyses. A generalized subsurface profile is shown in <br /> Appendix III. Beginning at the existing ground surface (approximately elevation 39 feet), <br /> these six layers are as follows: <br /> A 10- to 15-foot layer of light brown material ranging from lean clay to silt and <br /> silty clay. This layer is dry and very stiff to hard in consistency, with moisture <br /> contents typically at or below the plastic limit. A UU triaxial compression test <br /> performed on a sample at a depth of 15 feet in Boring BH-4, indicated an <br /> undrained shear strength of 5,145 pounds per square foot (psf). SPT blow- <br /> counts in this layer are typically greater than 50. <br /> A 16- to 20-foot layer of material ranging from silty sand to clayey sand. This <br /> layer is dry to moist and typically dense to very dense. Within this layer, a 5- <br /> foot zone of very stiff lean clay (UU shear strength of 2,262 psf) was <br /> /ut <br />