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RESEARCH PRODUCT
Fracture mechanics of snow avalanches.
Jan ÅStrömTimonen Jsubject
BrittlenessHomogeneousSlabFracture mechanicsMechanicsSlip (materials science)Physics::Classical PhysicsSnowStatic frictionGeologyPhysics::Geophysicsdescription
Dense snow avalanches are analyzed by modeling the snow slab as an elastic and brittle plate, attached by static friction to the underlying ground. The grade of heterogeneity in the local fracture (slip) thresholds, and the ratio of the average substrate slip threshold to the average slab fracture threshold, are the decisive parameters for avalanche dynamics. For a strong pack of snow there appears a stable precursor of local slips when the frictional contacts are weakened (equivalent to rising temperature), which eventually trigger a catastrophic crack growth that suddenly releases the entire slab. In the opposite limit of very high slip thresholds, the slab simply melts when the temperature is increased. In the intermediate regime, and for a homogeneous slab, the model display features typical of real snow avalanches. The model also suggests an explanation to why avalanches are impossible to forecast reliably based on precursor observations. This explanation may as well be applicable to other catastrophic rupture phenomena such as earthquakes.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2001-02-22 | Physical review. E, Statistical, nonlinear, and soft matter physics |