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Geotechnical Engineering Evaluation NGA File No.998317 <br /> Burger King Restaurant Development August 2,2017 <br /> Everett,Washington Page 8 <br /> Footings, including interior footings, should extend at least 18 inches below the lowest adjacent finished <br /> ground surface for frost protection and bearing capacity considerations. Foundations should be designed <br /> in accordance with the current IBC. Footing widths should be based on the anticipated loads and the <br /> allowable soil bearing pressure. Water should not be allowed to accumulate in footing trenches. All <br /> loose or disturbed soil should be removed from the foundation excavation prior to placing concrete. <br /> For foundations constructed as outlined above, we recommend an allowable design bearing pressure of <br /> not more than 2,500 pounds per square foot (psf) be used for the design of foundations supported on the <br /> medium dense or better native soils, or structural fill extending to the competent native soils. A <br /> representative of NGA should evaluate the foundation bearing soil. We should be consulted if higher <br /> bearing pressures are needed. Current IBC guidelines should be used when considering increased <br /> allowable bearing pressure for short-term transitory wind or seismic loads. Potential foundation <br /> settlement using the recommended allowable bearing pressure is estimated to be less than one-inch total <br /> and t/2-inch differential between adjacent footings or across a distance of about 30 feet based on our <br /> experience with similar projects. <br /> Lateral loads may be resisted by friction on the base of the footing and passive resistance against the <br /> subsurface portions of the foundation. A coefficient of friction of 0.35 may be used to calculate the base <br /> friction and should be applied to the vertical dead load only. Passive resistance may be calculated as a <br /> triangular equivalent fluid pressure distribution. An equivalent fluid density of 200 pounds per cubic foot <br /> (pcf) should be used for passive resistance design for a level ground surface adjacent to the footing. This <br /> level surface should extend a distance equal to at least three times the footing depth. These recommended <br /> values incorporate safety factors of 1.5 and 2.0 applied to the estimated ultimate values for frictional and <br /> passive resistance, respectively. To achieve this value of passive resistance, the foundations should be <br /> poured "neat" against the native medium dense soils or compacted fill should be used as backfill against <br /> the front of the footing. We recommend that the upper one foot of soil be neglected when calculating the <br /> passive resistance. <br /> Retaining Walls <br /> The lateral pressure acting on subsurface retaining walls is dependent on the nature and density of the soil <br /> behind the wall,the amount of lateral wall movement which can occur as backfill is placed,wall drainage <br /> conditions, and the inclination of the backfill. For walls that are free to yield at the top at least one <br /> thousandth of the height of the wall (active condition), soil pressures will be less than if movement is <br /> limited by such factors as wall stiffness or bracing (at-rest condition). We recommend that walls <br /> supporting horizontal backfill and not subjected to hydrostatic forces, be designed using a triangular earth <br /> NELSON GEOTECHNICAL ASSOCIATES, INC. <br />