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The Cryosphere An interactive open-access journal of the European Geosciences Union
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Volume 8, issue 4
The Cryosphere, 8, 1407-1418, 2014
https://doi.org/10.5194/tc-8-1407-2014
© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.
The Cryosphere, 8, 1407-1418, 2014
https://doi.org/10.5194/tc-8-1407-2014
© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 05 Aug 2014

Research article | 05 Aug 2014

The influence of edge effects on crack propagation in snow stability tests

E. H. Bair1,2, R. Simenhois3, A. van Herwijnen4, and K. Birkeland5 E. H. Bair et al.
  • 1US Army Corps of Engineers Cold Regions Research and Engineering Laboratory, Hanover, NH, USA
  • 2Earth Research Institute, University of California, Santa Barbara, CA, USA
  • 3Southeast Alaska Avalanche Center, Juneau, AK, USA
  • 4WSL Institute for Snow and Avalanche Research SLF, Davos, Switzerland
  • 5USDA Forest Service National Avalanche Center, Bozeman, MT, USA

Abstract. The Extended Column Test (ECT) and the Propagation Saw Test (PST) are two commonly used tests to assess the likelihood of crack propagation in a snowpack. Guidelines suggest beams with lengths of around 1 m, yet little is known about how test length affects propagation. Thus, we performed 163 ECTs and PSTs 1.0–10.0 m long. On days with full crack propagation in 1.0–1.5 m tests, we then made videos of tests 2.0–10.0 m long. We inserted markers for particle tracking to measure collapse amplitude, propagation speed, and wavelength. We also used a finite element (FE) model to simulate the strain energy release rate at fixed crack lengths. We find that (1) the proportion of tests with full propagation decreased with test length; (2) collapse was greater at the ends of the beams than in the centers; (3) collapse amplitude was independent of beam length and did not reach a constant value; (4) collapse wavelengths in the longer tests were around 3 m, two times greater than what is predicted by the anticrack model. We also confirmed the prediction that centered PSTs had double the critical length of edge PSTs. Based on our results, we conclude that cracks propagated more frequently in the shorter tests because of increased stress concentration from the far edge. The FE model suggests this edge effect occurs for PSTs of up to 2 m long or a crack to beam length ratio ≥ 0.20. Our results suggest that ECT and PST length guidelines may need to be revisited.

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