Add to ORKGABSTRACT. Dry-snow slab avalanches initiate from a failure in a weak snow layer below a cohesive slab. Snow is considered as a porous ice structure, and the strength distribution of the single elements of this structure, i.e. grains and bonds between grains, shows a high degree of disorder. On the bond or microstructural level, the failure process is believed to start if the fracturing of bonds between snow grains is not balanced by the formation of new bonds. We use a statistical fracture model – a fibre bundle model – to study the failure process in a weak snow layer. The model consists of fibres of various strengths representing single snow grains between two rigid plates which represent the slab above and the substratum below the weak l...
The failure of a weak snow layer buried below cohesive slab layers is a necessary, but insufficient,...
Dry-snow slab avalanches are generally caused by a sequence of fracture processes including (1) fail...
International audienceAn intimate understanding of snow failure, particularly under mixed-mode shear...
Snow is a heterogeneous material with strain- and/or load-rate-dependent strength. In particular, a ...
Dry-snow slab avalanches start with the formation of a local failure in a highly porous weak layer u...
Fracture mechanics has been applied for over 30 years to explain the release of slab avalanches, but...
International audienceSnowpack weak layers may fail due to excessstresses of various natures, caused...
Snowpack weak layers may fail due to excess stresses of various natures, caused by snowfall, skiers,...
International audienceThe mechanical behavior of snow weak layers is a crucial element in dry snow s...
International audienceWeak layers of snow are thin layers of low density and cohesion that consist o...
Dry-snow slab avalanche release is preceded by a fracture process within the snowpack. Recognizing w...
[1] Dry snow slab avalanches release as a result of the failure of a weakly bonded layer located bel...
[Departement_IRSTEA]Eaux [ADD1_IRSTEA]Hydrosystèmes et risques naturelsInternational audienceThe mec...
The failure of a weak snow layer buried below cohesive slab layers is a necessary, but insufficient,...
Dry-snow slab avalanches are generally caused by a sequence of fracture processes including (1) fail...
International audienceAn intimate understanding of snow failure, particularly under mixed-mode shear...
Snow is a heterogeneous material with strain- and/or load-rate-dependent strength. In particular, a ...
Dry-snow slab avalanches start with the formation of a local failure in a highly porous weak layer u...
Fracture mechanics has been applied for over 30 years to explain the release of slab avalanches, but...
International audienceSnowpack weak layers may fail due to excessstresses of various natures, caused...
Snowpack weak layers may fail due to excess stresses of various natures, caused by snowfall, skiers,...
International audienceThe mechanical behavior of snow weak layers is a crucial element in dry snow s...
International audienceWeak layers of snow are thin layers of low density and cohesion that consist o...
Dry-snow slab avalanche release is preceded by a fracture process within the snowpack. Recognizing w...
[1] Dry snow slab avalanches release as a result of the failure of a weakly bonded layer located bel...
[Departement_IRSTEA]Eaux [ADD1_IRSTEA]Hydrosystèmes et risques naturelsInternational audienceThe mec...
The failure of a weak snow layer buried below cohesive slab layers is a necessary, but insufficient,...
Dry-snow slab avalanches are generally caused by a sequence of fracture processes including (1) fail...
International audienceAn intimate understanding of snow failure, particularly under mixed-mode shear...