Abstract
AbstractSimultaneous measurements were made of bot the strength and structural properties of a dry, seasonal snow-pack. The densities of the snow studied ranged from 126 to 407 kg m−3. The mechanical strength of this snow as determined byinsitushear-wave test and a centrifugal tensile test increases exponentially with the increase in size of intergranular sands. Bonding increases at a rate substantially greater than that predicted by the classical sintering equations. It is suggested that this is due to the wide variety of stresses present in snow with these relatively low densities.
Publisher
Cambridge University Press (CUP)
Cited by
16 articles.
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3. Evolution of snow slope stability during storms;Cold Regions Science and Technology;1999-12
4. Snow densification during rain;Cold Regions Science and Technology;1999-12
5. Sintering in a dry snow cover;Journal of Applied Physics;1998-10-15