Transition from sub-Rayleigh anticrack to supershear crack propagation in snow avalanches
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Datum
2022-09Typ
- Journal Article
ETH Bibliographie
no
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Abstract
Snow slab avalanches, characterized by a distinct, broad fracture line, are released following anticrack propagation in highly porous weak snow layers buried below cohesive slabs. The anticrack mechanism is driven by the volumetric collapse of the weak layer, which leads to the closure of crack faces and to the onset of frictional contact. Here, on the basis of snow fracture experiments, full-scale avalanche measurements and numerical simulations, we report the existence of a transition from sub-Rayleigh anticrack to supershear crack propagation. This transition follows the Burridge–Andrews mechanism, in which a supershear daughter crack nucleates ahead of the main fracture front and eventually propagates faster than the shear wave speed. Furthermore, we show that the supershear propagation regime can exist even if the shear-to-normal stress ratio is lower than the static friction coefficient as a result of the loss of frictional resistance during collapse. This finding shows that snow slab avalanches have fundamental similarities with strike-slip earthquakes. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000619969Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
Nature PhysicsBand
Seiten / Artikelnummer
Verlag
NatureThema
Applied physics; Computational science; Soft materialsOrganisationseinheit
09795 - Gaume, Johan / Gaume, Johan
09795 - Gaume, Johan / Gaume, Johan
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Is new version of: https://doi.org/10.21203/rs.3.rs-963978/v1
ETH Bibliographie
no
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