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Robert and Lisa Flake JN 16005 <br /> January 27, 2016 Page 5 <br /> Retaining Wall Backfill and Waterproofing <br /> Backfill placed behind retaining or foundation walls should be coarse, free-draining structural <br /> fill containing no organics. This backfill should contain no more than 5 percent silt or clay <br /> particles and have no gravel greater than 4 inches in diameter. The percentage of particles <br /> passing the No. 4 sieve should be between 25 and 70 percent. If the native sand is used as <br /> backfill, a minimum 12-inch width of free-draining gravel or a drainage composite similar to <br /> Miradrain 6000 should be placed against the backfilled retaining walls. The drainage <br /> composites should be hydraulically connected to the foundation drain system. <br /> The purpose of these backfill requirements is to ensure that the design criteria for a retaining <br /> wall are not exceeded because of a build-up of hydrostatic pressure behind the wall. Also, <br /> subsurface drainage systems are not intended to handle large volumes of water from surface <br /> runoff. The top 12 to 18 inches of the backfill should consist of a compacted, relatively <br /> impermeable soil or topsoil, or the surface should be paved. The ground surface must also <br /> slope away from backfilled walls to reduce the potential for surface water to percolate into the <br /> backfill. Water percolating through pervious surfaces (pavers, gravel, permeable pavement, <br /> etc.) must also be prevented from flowing toward walls or into the backfill zone. The <br /> compacted subgrade below pervious surfaces and any associated drainage layer should <br /> therefore be sloped away. Alternatively, a membrane and subsurface collection system could <br /> be provided below a pervious surface. <br /> It is critical that the wall backfill be placed in lifts and be properly compacted, in order for the <br /> above-recommended design earth pressures to be appropriate. The wall design criteria <br /> assume that the backfill will be well-compacted in lifts no thicker than 12 inches. The <br /> compaction of backfill near the walls should be accomplished with hand-operated equipment <br /> to prevent the walls from being overloaded by the higher soil forces that occur during <br /> compaction. The section entitled General Earthwork and Structural Fill contains additional <br /> recommendations regarding the placement and compaction of structural fill behind retaining <br /> and foundation walls. <br /> The above recommendations are not intended to waterproof below-grade walls, or to prevent <br /> the formation of mold, mildew or fungi in interior spaces. Over time, the performance of <br /> subsurface drainage systems can degrade, subsurface groundwater flow patterns can <br /> change, and utilities can break or develop leaks. Therefore, waterproofing should be provided <br /> where future seepage through the walls is not acceptable. This typically includes limiting cold- <br /> joints and wall penetrations, and using bentonite panels or membranes on the outside of the <br /> walls. There are a variety of different waterproofing materials and systems, which should be <br /> installed by an experienced contractor familiar with the anticipated construction and <br /> subsurface conditions. Applying a thin coat of asphalt emulsion to the outside face of a wall is <br /> not considered waterproofing, and will only help to reduce moisture generated from water <br /> vapor or capillary action from seeping through the concrete. As with any project, adequate <br /> ventilation of basement and crawl space areas is important to prevent a build up of water <br /> vapor that is commonly transmitted through concrete walls from the surrounding soil, even <br /> when seepage is not present. This is appropriate even when waterproofing is applied to the <br /> outside of foundation and retaining walls. We recommend that you contact an experienced <br /> envelope consultant if detailed recommendations or specifications related to waterproofing <br /> design, or minimizing the potential for infestations of mold and mildew are desired. <br /> The General, Slabs-On-Grade, and Drainage Considerations sections should be reviewed <br /> for additional recommendations related to the control of groundwater and excess water vapor <br /> for the anticipated construction. <br /> GEOTECH CONSULTANTS,INC. <br />