Laserfiche WebLink
4110 <br /> Robert and Lisa Flake JN 16005 <br /> January 27, 2016 Page 4 <br /> FOUNDATION AND RETAINING WALLS <br /> Retaining walls backfilled on only one side should be designed to resist the lateral earth pressures <br /> imposed by the soil they retain. The following recommended parameters are for walls that restrain <br /> level backfill: <br /> PARAMETER Value <br /> Active Earth Pressure 35 pcf <br /> Passive Earth Pressure 300 pcf <br /> Coefficient of Friction 0.50 <br /> Soil Unit Weight 130 pcf <br /> Where:pcf is Pounds per Cubic Foot,and Active and Passive Earth <br /> Pressures are computed using the Equivalent Fluid Pressures. <br /> * For a restrained wall that cannot deflect at least 0.002 times its <br /> height,a uniform lateral pressure equal to 10 psf times the height <br /> of the wall should be added to the above active equivalent fluid <br /> pressure. <br /> The design values given above do not include the effects of any hydrostatic pressures behind the <br /> walls and assume that no surcharges, such as those caused by slopes, vehicles, or adjacent <br /> foundations will be exerted on the walls. If these conditions exist, those pressures should be added <br /> to the above lateral soil pressures. Where sloping backfill is desired behind the walls, we will need <br /> to be given the wall dimensions and the slope of the backfill in order to provide the appropriate design <br /> earth pressures. The surcharge due to traffic loads behind a wall can typically be accounted for by <br /> adding a uniform pressure equal to 2 feet multiplied by the above active fluid density. Heavy <br /> construction equipment should not be operated behind retaining and foundation walls within a <br /> distance equal to the height of a wall, unless the walls are designed for the additional lateral pressures <br /> resulting from the equipment. <br /> The values given above are to be used to design only permanent foundation and retaining walls that <br /> are to be backfilled, such as conventional walls constructed of reinforced concrete or masonry. It is <br /> not appropriate to use the above earth pressures and soil unit weight to back-calculate soil strength <br /> parameters for design of other types of retaining walls, such as soldier pile, reinforced earth, modular <br /> or soil nail walls. We can assist with design of these types of walls, if desired. The passive pressure <br /> given is appropriate only for a shear key poured directly against undisturbed native soil, or for the <br /> depth of level, well-compacted fill placed in front of a retaining or foundation wall. The values for <br /> friction and passive resistance are ultimate values and do not include a safety factor. Restrained wall <br /> soil parameters should be utilized for a distance of 1.5 times the wall height from corners or bends in <br /> the walls. This is intended to reduce the amount of cracking that can occur where a wall is restrained <br /> by a corner. <br /> Wall Pressures Due to Seismic Forces <br /> The surcharge wall loads that could be imposed by the design earthquake can be modeled <br /> by adding a uniform lateral pressure to the above-recommended active pressure. The <br /> recommended surcharge pressure is 8H pounds per square foot (psf), where H is the design <br /> retention height of the wall. Using this increased pressure, the safety factor against sliding <br /> and overturning can be reduced to 1.2 for the seismic analysis. <br /> GEOTECH CONSULTANTS,INC. <br />