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� FREEZING WEATHER EFFECTS ON BUII.DING CONSTRUCTION <br /> GENERAL <br /> Because water expands upon freezing and soils contain water, soils which are allowed to freeze will heave and lose <br /> density.Upon thawing,these soils will not regain their original strength and density.The extent of heave and densiry/ <br /> strength loss depends on the soil type and moisture condition.Heave is greater ia soils with higher percentages of fines <br /> (silts/clays).High silt content soils are most susceptible,due to their high capillary rise potential which can create ice <br /> lenses.Fine grained soils generally heave about 1/4"to 3/8"for each foot of frost penetration.This can translate to 1" <br /> to 2" of total frost heave. This total amount can be significantly greater if ice lensing occurs. <br /> DESIGN CONSIDERATIONS <br /> Clayey and silty soils can be used as perimeter backfill,although the effect of their poor drainage and frost properties <br /> should be considered.Basement azeas will have special drainage and lateral load requirements which are not discussed <br /> here. Frost heave may be critical in doorway azeas. Stoops or sidewalks adjacent to doorways could be designed as <br /> structural slabs supported on frost footings with void spaces below. With this design, movements may then occur <br /> between the structural slab and the adjacent on-grade slabs.Non-frost susceptible sands(with less than 12%passing a <br /> �200 sieve)can be used beloi�such areas.Depending on the function of surrounding areas,the sand layer may need a <br /> thicicness uansition away from the area where movement is critical.With sand placement over slower draining soils, <br /> subsurface drainage would be needed for the sand layer. High density extruded insulation could be used within the <br /> sand to reduce frost penetration, thereby reducing the sand ttuclmess needed.We caution that insulation placed near <br /> the surface can increase the potential for ice glazing of the surface. <br /> The possible effects of adfreezing should be considered if clayey or silty soils are used as backfill. Adfreezing occurs <br /> when backfill adheres to rough surfaced foundation walls and lifts the wall as it freezes and heaves.This occurrence is <br /> most common with masonry block walls,unheated or poorly heated building situations and clay backfill.The potential <br /> is also increased where backfill soils are poorly compacted and become saturated. The risk of adfreezing can be <br /> decreased by placing a low friction separating layer between the wall and backfill. <br /> Adfreezing can occur on exterior piers(such as deck,fence or other similar pier footings),even if a smooth surface is <br /> provided.This is more likely in poor drainage situations where soils become saturated.Additional footing embedment <br /> and/or widened footings below the frost zones(which include tensile reinforcement)can be used to resist uplift forces. <br /> Specific designs would require individual analysis. <br /> CONSTRUCTION CONSIDERATIONS <br /> Foundations,slabs and other improvements which may be affected by frost movements should be insulated from frost <br /> penetration during freezing weather. If filling takes place during freezing weather, <br /> all frozen soils, snow and ice <br /> should be stripped from areas ta be filled prior to new fill placement. The new fill should not be allowed to freeze <br /> during transit,placement or compaction.This should be considered in the project scheduling,budgeting and quantity <br /> estimating.It is usually beneficial to perform cold weather earthwork operations in small azeas where grade can be <br /> attained quickly rather than working larger areas where a greater amount of frost stripping may be needed. If slab <br /> subgrade azeas freeze,we recommend the subgrade be thawed prior to floor slab placement.The frost action may also <br /> require reworking and recompacrion of the thawed subgrade. <br /> O1REP015(02/O1} AMERICAN ENGIlV�ERSNG T�STINC-, Il�IC. <br />