Quickclays as products of glacial action: a new approach to their nature, geology, distribution and geotechnical properties - a reply

Abstract

Abstract Essentially, quickclays are products of glaciation which accounts for their limited distribution; other modes of development being of lesser importance. Glacial grinding provides the fine silt and clay sizes required to constitute quickclays. Two major factors account for the geotechnical properties, a composition factor related to material comprising the soil system and a leaching factor, the effectiveness of which is related to the clay-mineral content of the soil. Soils can be divided into three types, based on criteria of particle size and type of interparticle bond. Among the latter are long-range active bonds, typical of true clay-mineral systems; and short-range inactive bonds such as are observed between two quartz particles. The three main soil types have: (a) small particles and long-range forces - the bond/weight ratioR is high; (b) small particles and short-range forces − R > 1 ; and (c) large particles and short-range forces - i.e., the sands, andR The initial failure of the soil might be treated as tensile using a volume failure criterion; the low settling velocity of the very small (≈ 1−2 μm) particles allows the solid-liquid transformation to occur after a modest shock loading. Observations of low thixotropy, lack of secondary settlement and sudden failure in compression tests can be explained by requirements of particle size and material.