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Cocoon House JN 16422 <br /> November 3, 2016 Page 9 <br /> be classified as Type B. Therefore, temporary cut slopes greater than 4 feet in height should not be <br /> excavated at an inclination steeper than 1:1 (Horizontal:Vertical), extending continuously between <br /> the top and the bottom of a cut. The underlying dense silty sand would be classified as Type A and <br /> should be excavated at an inclination no steeper than 0.75:1 (Horizontal:Vertical). <br /> The above-recommended temporary slope inclinations are based on the conditions exposed in our <br /> explorations, and on what has been successful at other sites with similar soil conditions. It is <br /> possible that variations in soil and groundwater conditions will require modifications to the <br /> inclination at which temporary slopes can stand. Temporary cuts are those that will remain <br /> unsupported for a relatively short duration to allow for the construction of foundations, retaining <br /> walls, or utilities. Temporary cut slopes should be protected with plastic sheeting during wet <br /> weather. It is also important that surface runoff be directed away from the top of temporary slope <br /> cuts. Cut slopes should also be backfilled or retained as soon as possible to reduce the potential <br /> for instability. Please note that sand and/or loose soil can cave suddenly and without warning. <br /> Excavation, foundation, and utility contractors should be made especially aware of this potential <br /> danger. These recommendations may need to be modified if the area near the potential cuts has <br /> been disturbed in the past by utility installation, or if settlement-sensitive utilities are located nearby. <br /> All permanent cuts into native soil should be inclined no steeper than 2:1 (H:V). Water should not <br /> be allowed to flow uncontrolled over the top of any temporary or permanent slope. All permanently <br /> exposed slopes should be seeded with an appropriate species of vegetation to reduce erosion and <br /> improve the stability of the surficial layer of soil. <br /> DRAINAGE CONSIDERATIONS <br /> Footing drains should be used where: (1) Crawl spaces or basements will be below a structure; <br /> (2) A slab is below the outside grade; or, (3) The outside grade does not slope downward from a <br /> building. Drains should also be placed at the base of all earth-retaining walls. These drains should <br /> be surrounded by at least 6 inches of 1-inch-minus, washed rock that is encircled with non-woven, <br /> geotextile filter fabric (Mirafi 140N, Supac 4NP, or similar material). At its highest point, a <br /> perforated pipe invert should be at least 6 inches below the bottom of a slab floor or the level of a <br /> crawl space. The discharge pipe for subsurface drains should be sloped for flow to the outlet point. <br /> Roof and surface water drains must not discharge into the foundation drain system. A typical drain <br /> detail is attached to this report as Plate 8. For the best long-term performance, perforated PVC <br /> pipe is recommended for all subsurface drains. <br /> If the structure includes an elevator, it may be necessary to provide special drainage or <br /> waterproofing measures for the elevator pit. If no seepage into the elevator pit is acceptable, it will <br /> be necessary to provide a footing drain and free-draining wall backfill, and the walls should be <br /> waterproofed. If the footing drain will be too low to connect to the storm drainage system, then it <br /> will likely be necessary to install a pumped sump to discharge the collected water. Alternatively, <br /> the elevator pit could be designed to be entirely waterproof; this would include designing the pit <br /> structure to resist hydrostatic uplift pressures. <br /> As a minimum, a vapor retarder, as defined in the Slabs-On-Grade section, should be provided in <br /> any crawl space area to limit the transmission of water vapor from the underlying soils. Crawl space <br /> grades are sometimes left near the elevation of the bottom of the footings. As a result, an outlet <br /> drain is recommended for all crawl spaces to prevent an accumulation of any water that may <br /> bypass the footing drains. Providing even a few inches of free draining gravel underneath the <br /> vapor retarder limits the potential for seepage to build up on top of the vapor retarder. <br /> GEOTECH CONSULTANTS, INC. <br />