Estimating the effective elastic modulus and specific fracture energy of snowpack layers from field experiments

Author:

VAN HERWIJNEN ALEC,GAUME JOHAN,BAIR EDWARD H.,REUTER BENJAMIN,BIRKELAND KARL W.,SCHWEIZER JÜRG

Abstract

ABSTRACTMeasurements of the mechanical properties of snow are essential for improving our understanding and the prediction of snow failure and hence avalanche release. We performed fracture mechanical experiments in which a crack was initiated by a saw in a weak snow layer underlying cohesive snow slab layers. Using particle tracking velocimetry (PTV), the displacement field of the slab was determined and used to derive the mechanical energy of the system as a function of crack length. By fitting the estimates of mechanical energy to an analytical expression, we determined the slab effective elastic modulus and weak layer specific fracture energy for 80 different snowpack combinations, including persistent and nonpersistent weak snow layers. The effective elastic modulus of the slab ranged from 0.08 to 34 MPa and increased with mean slab density following a power-law relationship. The weak layer specific fracture energy ranged from 0.08 to 2.7 J m−2 and increased with overburden. While the values obtained for the effective elastic modulus of the slab agree with previously published low-frequency laboratory measurements over the entire density range, the values of the weak layer specific fracture energy are in some cases unrealistically high as they exceeded those of ice. We attribute this discrepancy to the fact that our linear elastic approach does not account for energy dissipation due to non-linear parts of the deformation in the slab and/or weak layer, which would undoubtedly decrease the amount of strain energy available for crack propagation.

Publisher

Cambridge University Press (CUP)

Subject

Earth-Surface Processes

Reference51 articles.

1. Refinements of empirical models to forecast the shear strength of persistent weak snow layers

2. van Herwijnen A and Heierli J (2010) A field method for measuring slab stiffness and weak layer fracture energy. Proceedings of the International Snow Science Workshop, Lake Tahoe, CA, USA, 2010, 232–237

3. Measurements of weak layer fracture energy

4. High-speed photography of fractures in weak snowpack layers

5. Subsecond sintering of ice

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