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BI'T'UMINOUS PAVEMENT SURGR.ADE PREPARATION AND DESIGN <br /> GENERAL <br /> Bituminous pavements are considered layered "flexible"systems. Dynamic wheel loads transmit high local stresses <br /> through the bituminous/base onto the subgrade. Because of this, the upper portion of the subgrade requires high <br /> strength/stability to reduce deflection and fatigue of the bitusninouslbase system.The wheel load intensity dissipates <br /> through the subgrade such that the high level of soil stability is usually not needed below about T to 4'(depending on the <br /> anticipated traffic and underlyingsoil conditions).This is the primary reason for specifying a higher level of compaction <br /> within the upper subgrade zone versus the lower portion.Moderate compaction its usually desired below the upper critical <br /> zone,primarily to avoid settlements/sags of the roadway.However,if the soils present below the upper T subgrade zone <br /> are unstable, attempts to properly compact the upper 3' zone to the 100% level may be difficult or not possible. <br /> Therefore, control of moisture just below the 3' level may be needed to provide a non-yielding base upon which to <br /> compact the upper subgrade soils. <br /> Long-term pavement performance is dependent on the soil subgrade drainage and frost characteristics.Poor to moderate <br /> draining soils tend to be susceptible to frost heave and subsequent weakening upon thaw.This condition can result in <br /> irregular frost movements and"popouts,"as well as an accelerated softening of the subgrade.Frost problems become <br /> more pronounced when the subgrade is layered with soils of varying permeability.In this situation,the free-draining soils <br /> provide a pathway and reservoir for water infiltration which exaggerates the movements.The placement ofa well drained <br /> sand subbase layer as the top of subgrade can minimize trapped water,smooth frost movements and significantly reduce <br /> subgrade softening.In wet,layered and/or poor drainage situations,the long-term performance gain should be significant. <br /> If a sand subbase is placed, we recommend it be a "Select Granular Borrow" which meets Mn/DOT Specification <br /> 3149.2132. <br /> PREPARATION <br /> Subgrade preparation should include stripping surficial vegetation and organic soils.Where the exposed soils are within <br /> the upper"critical"subgrade zone(generally 2''1W deep for"auto only"areas and 3'deep for"heavy duty"areas),they <br /> should be evaluated for stability. Excavation equipment may make such areas obvious due to deflection and rutting <br /> patterns.Final evaluation of soils within the critical subgrade zone should be done by test rolling with heavy rubber-tired <br /> construction equipment,such as a loaded dump truck.Soils which rut or deflect i"or more underthe test roll should be <br /> corrected by either subcutting and replacement;or by scarification,drying,and recompaction.Reworked soils and new <br /> fill should be compacted per the"Specified Density Method"outlined in MnIDOT Specification 2105.3F'l (am inimum <br /> of 100%of Standard Proctor density in the upper 3'subgrade zone,and a minimum of 95%below this). <br /> Subgrade preparation scheduling can be an important consideration.Fall and Spring seasons usually have unfavorable <br /> weather for soil drying.Stabilizing non-sand subgrades during these seasons may be difficult,and attempts often result in <br /> comprom isingthe pavement quality.Where construction scheduling requires subgrade preparation during these times,the <br /> use of a sand subbase becomes even more beneficial for constructability reasons. <br /> SUSGRADE DRAINAGE <br /> If a sand subbase layer is used, it should be provided with a means of subsurface drainage to prevent water build-up. <br /> This can be in the form of draintile lines which dispose into storm sewer systems,or outlets into ditches.Where sand <br /> subbase layers include sufficient sloping,and water can migrate to lower areas,draintile lines can be limited to finger <br /> drains at the catch basins. Even if a sand layer is not placed, strategically placed draintile lines can aid in improving. <br /> pavement performance. This would be most important in areas where adjacent non-paved areas slope towards the <br /> pavement. Perimeter edge drains can aid in intercepting water which may infiltrate below the pavement. <br /> 0 IREP016(02101) AMERICAN ENGINEERING TES'T'ING, INC. <br />