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' December 8 2016 <br /> Project No. T-7388-1 <br /> Potential long-term settlement due to secondary compression of the soft silt and clay layer may also occur. These <br /> secondary settlements cannot be fully mitigated during the surcharge program. The magnitude of this settlement <br /> will be greater in the early years diminishing with time. Estimated total settlement due to secondary compression <br /> ' range up to a maximum of one-inch in 20 years. Approximately 50 percent of the total secondary settlement will <br /> be differential in nature due to the varying thickness and compressibility characteristics of the silt and clay layer. <br /> 5.3 Excavations <br /> All excavations at the site associated with confined spaces, such as utility trenches and lower building levels, <br /> must be completed in accordance with local, state, or federal requirements. Based on current Washington <br /> Industrial Safety and Health Act (WISHA) regulations, the upper fills and medium dense, native sands at the <br /> project site would be classified as Group B soils. The soft silts and clays would be classified as Group C soils. <br /> ' Accordingly,temporary excavations in Type C and Type B soils should have their slopes laid back at inclinations <br /> no steeper than 1.5:1 (Horizontal:Vertical)and 1:1 (Horizontal:Vertical), respectively, from the toe to the crest of <br /> the slope. If there is insufficient room to complete the excavations in this manner, or if excavations greater than <br /> 20 feet in depth are planned, temporary shoring to support the excavations may be required. Properly designed <br /> and installed shoring trench boxes can be used to support utility trench excavations where required. <br /> Groundwater should be anticipated within excavations extending below the existing fill into the native sands. If <br /> ' the excavation only extends two to three feet below the groundwater table, the volume of water and rate of flow <br /> into the excavation is expected to be moderate and are not expected to impact the stability of the excavations <br /> when completed, as described. Conventional sump pumping procedures, along with a system of collection <br /> trenches, if necessary should be capable of maintaining a relatively dry excavation for construction purposes. <br /> Deeper excavations that will require worker entry will likely require pre-draining using deep pump wells or <br /> closely spaced well points. <br /> ' This information is provided solely for the benefit of the owner and other design consultants, and should not be <br /> construed to imply that Terra Associates, Inc. assumes responsibility for job site safety. It is understood that job <br /> site safety is the sole responsibility of the project contractor. <br /> 5.4 Foundations <br /> The building may be supported on conventional spread footing foundations bearing on foundation subgrade <br /> prepared as recommended in Section 5.2 of this report. Perimeter foundations exposed to the weather should <br /> ' bear at a minimum depth of 1.5 feet below final exterior grades for frost protection. Interior foundations can be <br /> constructed at any convenient depth below the floor slab. <br /> ' We recommend designing foundations for a net allowable bearing capacity of 2,500 pounds per square foot(psf). <br /> For short-term loads, such as wind and seismic, a one-third increase in this allowable capacity can be used. As <br /> noted earlier, following successful completion of the surcharge program, estimated primary consolidation <br /> settlement due to building loads are less than 'A-inch. Total long-term settlement due to continued creep <br /> compression of the soft silt/clay layer is estimated to range up to a maximum of one-inch over a 20-year span, <br /> with approximately 50 percent of the long-term settlement being differential in nature. <br /> Page No. 7 <br />