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BASEMENT /RETAINING WALL BACKFILL AND WATER CONTROL <br />DRAINAGE <br />Below grade basements should include a perimeter backfill drainage system on the exterior side of the wall. The <br />exception may be where basements lie within free draining sands where water will not perch in the backfill. <br />Drainage systems should consist of perforated or slotted PVC drainage pipes located at the bottom of the backfill <br />trench. lower than the interior door grade. The drain pipe should be surrounded by properly graded filter rock. <br />The drain pipe should be connected to a suitable means of disposal. such as a sump pump basket or a gravity <br />outfall. A storm sewer gravity outfall would be preferred over exterior daylighting, as the latter may freeze during <br />winter. For non- building. exterior retaining walls. weep holes at the base of the wall can be substituted for a drain <br />pipe. <br />BACKFILLING <br />Prior to backfrlling. damp /water proofing should be applied on perimeter basement walls. The backfill materials <br />placed against basement walls will exert lateral loadings. To reduce this loading by allowing for drainage, we <br />recommend using free draining sands for backfill. The zone of sand backfill should extend outward from the wall <br />at least 2' . and then upward and outward from the wall at a 300 or greater angle from vertical. The sands should <br />contain no greater than 12% by weight passing the #200 sieve, which would include (SP) and (SP -SM) soils. The <br />sand backfill should be placed in lifts and compacted with portable compaction equipment. This compaction <br />should be to the specified levels if slabs or pavements are placed above. Where slab /pavements are not above, we <br />recommend capping the sand backfill with a layer of clayey soil to minimize surface water infiltration. Positive <br />surface drainage away from the building should also be maintained. <br />Backfilling with silty or clayey soil is possible but not preferred. These soils can build -up water which increases <br />lateral pressures and results in wet wall conditions and possible water infiltration into the basement. If you elect to <br />place silty or clayey soils as bacicfill, we recommend you place a prefabricated drainage composite against the wall <br />which is hydraulically connected to a drainage pipe at the base of the bacldrll trench. High plasticity clays should <br />be avoided as backfill due to their swelling potential. <br />LATERAL PRESSURES <br />Lateral earth pressures on below grade walls vary, depending on backfill soil classification, backfill compaction <br />and slope of the backfill surface. Static or dynamic surcharge loads near the wall will also increase lateral wall <br />pressure. For design. we recommend the following ultimate lateral earth pressure values (given in equivalent fluid <br />pressure values) for a drained soil compacted to 95% of the standard Proctor density and a level ground surface. <br />Soil Type <br />Equivalent Fluid Density <br />Active (pct) <br />At -Rest (pet) <br />Sands (SP or SP -SM) <br />30 <br />45 <br />Silty Sands (SM) <br />40 <br />60 <br />Fine Grained Soils (SC. CL or ML) <br />70 <br />90 <br />Basement walls are normally restrained at he top which restricts movement. In this case, the design lateral <br />pressures should be the 'at -rest- pressure s'tuation. Retaining walls which are free to rotate or deflect should be <br />designed using the active case. Lateral earth pressures will be significantly higher than that shown if the backfill <br />soils are not drained and become saturated. <br />- 3 5 - <br />