Soil Mechanics: Rutting in Asphalt Pavements, Embankments on Varved Clays, and Foundations: Fid-Bau Portal

Soil Mechanics: Rutting in Asphalt Pavements, Embankments on Varved Clays, and Foundations

The 26 papers in this report deal with the following areas: Rutting prediction in asphalt concrete pavements; rut depth prediction; practical approach to the prediction of rutting in asphalt pavements: the shell method; laboratory testing for use in the prediction of rutting in asphalt pavements; rut depth prediction and test procedures for permanent deformation in asphalt; system for summation of load-induced pavement strains to produce a rut profile (abridgment); laboratory verification of a mechanistic subgrade rutting model (abridgment); procedure for predicting rut depths in flexible pavements (abridgment); predicting permanent deformation of asphalt concrete from creep tests (abridgment); analysis of subgrade rutting in flexible airfield pavements (abridgment); consolidation behavior of structural fills on Hackensack varved clays; performance of a thin metal retaining wall with multiple anchorage; design of drilled shafts supporting highway signs; pressure-time relationship in frozen cohesive soils under lateral pressure; influence of the interface condition on stress distribution in a layered system (abridgment); analyzing field data for rapid settlements (abridgment); design approach for circular buried conduits (abridgment); uncertainty analysis of settlement rate (abridgment); effects of repeated tensile stresses on the resilient properties of asphalt mixtures (abridgment); thermal susceptibility of base course material: its cause and its effect on pavement cracking (abridgment); predicting pile capacities using Dutch cone penetrometer date (abridgment); side shear on piles driven in oversized pilot holes (abridgment); infiltration of water through the pavement surface (abridgment); vertical drains for highway embankments in Kansas (abridgment) and evaluation of plastic underdrain (abridgment).