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Micromechanical modeling of snow failure
Bobillier, G., Bergfeld, B., Capelli, A., Dual, J., Gaume, J., van Herwijnen, A., & Schweizer, J. (2020). Micromechanical modeling of snow failure. Cryosphere, 14(1), 39-49. https://doi.org/10.5194/tc-14-39-2020
Decoupling the role of inertia, friction, and cohesion in dense granular avalanche pressure build-up on obstacles
Kyburz, M. L., Sovilla, B., Gaume, J., & Ancey, C. (2020). Decoupling the role of inertia, friction, and cohesion in dense granular avalanche pressure build-up on obstacles. Journal of Geophysical Research F: Earth Surface, 125(2), e2019JF005192 (18 pp.). https://doi.org/10.1029/2019JF005192
A mechanically-based model of snow slab and weak layer fracture in the Propagation Saw Test
Benedetti, L., Gaume, J., & Fischer, J. T. (2019). A mechanically-based model of snow slab and weak layer fracture in the Propagation Saw Test. International Journal of Solids and Structures, 158, 1-20. https://doi.org/10.1016/j.ijsolstr.2017.12.033
Cohesion‐induced enhancement of aeolian saltation
Comola, F., Gaume, J., Kok, J. F., & Lehning, M. (2019). Cohesion‐induced enhancement of aeolian saltation. Geophysical Research Letters, 46(10), 5566-5574. https://doi.org/10.1029/2019GL082195
Investigating the release and flow of snow avalanches at the slope-scale using a unified model based on the material point method
Gaume, J., van Herwijnen, A., Gast, T., Teran, J., & Jiang, C. (2019). Investigating the release and flow of snow avalanches at the slope-scale using a unified model based on the material point method. Cold Regions Science and Technology, 168, 102847 (10 pp.). https://doi.org/10.1016/j.coldregions.2019.102847
Numerical investigation of the mixed-mode failure of snow
Mulak, D., & Gaume, J. (2019). Numerical investigation of the mixed-mode failure of snow. Computational Particle Mechanics, 6, 439-447. https://doi.org/10.1007/s40571-019-00224-5
Dynamic anticrack propagation in snow
Gaume, J., Gast, T., Teran, J., van Herwijnen, A., & Jiang, C. (2018). Dynamic anticrack propagation in snow. Nature Communications, 9(1), 3047 (10 pp.). https://doi.org/10.1038/s41467-018-05181-w
Stress concentrations in weak snowpack layers and conditions for slab avalanche release
Gaume, J., Chambon, G., van Herwijnen, A., & Schweizer, J. (2018). Stress concentrations in weak snowpack layers and conditions for slab avalanche release. Geophysical Research Letters, 45(16), 8363-8369. https://doi.org/10.1029/2018GL078900
Fragmentation of wind-blown snow crystals
Comola, F., Kok, J. F., Gaume, J., Paterna, E., & Lehning, M. (2017). Fragmentation of wind-blown snow crystals. Geophysical Research Letters, 44(9), 4195-4203. https://doi.org/10.1002/2017GL073039
Assessing snow instability in skier-triggered snow slab avalanches by combining failure initiation and crack propagation
Gaume, J., & Reuter, B. (2017). Assessing snow instability in skier-triggered snow slab avalanches by combining failure initiation and crack propagation. Cold Regions Science and Technology, 144, 6-15. https://doi.org/10.1016/j.coldregions.2017.05.011
Scaling laws for the mechanics of loose and cohesive granular materials based on Baxter's sticky hard spheres
Gaume, J., Löwe, H., Tan, S., & Tsang, L. (2017). Scaling laws for the mechanics of loose and cohesive granular materials based on Baxter's sticky hard spheres. Physical Review E, 96(3), 032914 (12 pp.). https://doi.org/10.1103/PhysRevE.96.032914
Snow fracture in relation to slab avalanche release: critical state for the onset of crack propagation
Gaume, J., van Herwijnen, A., Chambon, G., Wever, N., & Schweizer, J. (2017). Snow fracture in relation to slab avalanche release: critical state for the onset of crack propagation. Cryosphere, 11(1), 217-228. https://doi.org/10.5194/tc-11-217-2017
Snow instability evaluation: calculating the skier-induced stress in a multi-layered snowpack
Monti, F., Gaume, J., van Herwijnen, A., & Schweizer, J. (2016). Snow instability evaluation: calculating the skier-induced stress in a multi-layered snowpack. Natural Hazards and Earth System Science, 16(3), 775-788. https://doi.org/10.5194/nhess-16-775-2016
Temporal evolution of crack propagation propensity in snow in relation to slab and weak layer properties
Schweizer, J., Reuter, B., van Herwijnen, A., Richter, B., & Gaume, J. (2016). Temporal evolution of crack propagation propensity in snow in relation to slab and weak layer properties. Cryosphere, 10(6), 2637-2653. https://doi.org/10.5194/tc-10-2637-2016
Influence of weak layer heterogeneity and slab properties on slab tensile failure propensity and avalanche release area
Gaume, J., Chambon, G., Eckert, N., Naaim, M., & Schweizer, J. (2015). Influence of weak layer heterogeneity and slab properties on slab tensile failure propensity and avalanche release area. Cryosphere, 9(2), 795-804. https://doi.org/10.5194/tc-9-795-2015
Modeling of crack propagation in weak snowpack layers using the discrete element method
Gaume, J., Van Herwijnen, A., Chambon, G., Birkeland, K. W., & Schweizer, J. (2015). Modeling of crack propagation in weak snowpack layers using the discrete element method. Cryosphere, 9(5), 1915-1932. https://doi.org/10.5194/tc-9-1915-2015
Evaluating snow weak-layer failure parameters through inverse finite element modelling of shaking-platform experiments
Podolskiy, E. A., Chambon, G., Naaim, M., & Gaume, J. (2015). Evaluating snow weak-layer failure parameters through inverse finite element modelling of shaking-platform experiments. Natural Hazards and Earth System Science, 15(1), 119-134. https://doi.org/10.5194/nhess-15-119-2015
A new mixed-mode failure criterion for weak snowpack layers
Reiweger, I., Gaume, J., & Schweizer, J. (2015). A new mixed-mode failure criterion for weak snowpack layers. Geophysical Research Letters, 42(5), 1427-1432. https://doi.org/10.1002/2014GL062780
Granulation of snow: from tumbler experiments to discrete element simulations
Steinkogler, W., Gaume, J., Löwe, H., Sovilla, B., & Lehning, M. (2015). Granulation of snow: from tumbler experiments to discrete element simulations. Journal of Geophysical Research F: Earth Surface, 120(6), 1107-1126. https://doi.org/10.1002/2014JF003294
Evaluation of slope stability with respect to snowpack spatial variability
Gaume, J., Schweizer, J., van Herwijnen, A., Chambon, G., Reuter, B., Eckert, N., & Naaim, M. (2014). Evaluation of slope stability with respect to snowpack spatial variability. Journal of Geophysical Research F: Earth Surface, 119(9), 1783-1799. https://doi.org/10.1002/2014JF003193