Transition Between Mechanical and Geometric Controls in Glacier Crevassing Processes
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Date
2024-05-16
Publication Type
Journal Article
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yes
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Abstract
Herein, fast fracture initiation in glacier ice is modeled using a Material Point Method and a simplified constitutive law describing tensile strain softening. Relying on a simple configuration where ice flows over a vertical step, crevasse patterns emerge and are consistent with previous observations reported in the literature. The model’s few parameters allows identification of a single dimensionless number controlling fracture spacing and depth. This scaling law delineates two regimes. In the first one, ice thickness does not play a role and only ice tensile strength controls the spacing, giving rise to numerous surface crevasses, as observed in crevasse fields. In this regime, scaling can recover classical values for ice tensile strength from macroscopic field observations. The second regime, governed by ice bending, produces large-scale, deep fractures resembling serac falls or calving events.
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published
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Volume
51 (9)
Pages / Article No.
Publisher
American Geophysical Union
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Subject
glaciology; fractures; crevasses; calving
Organisational unit
09795 - Gaume, Johan / Gaume, Johan