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A finite element snowpack model
Bartelt, P., & Ammann, W. (1999). A finite element snowpack model. In T. Vogel (Ed.), IBK special publications: Vol. 7. Festschrift zum 60. Geburtstag von Prof. Dr. Edoardo Anderheggen (pp. 49-55). Institut für Baustatik und Konstruktion der ETH.
Work minimisation in rock and snow avalanches: the competition between random kinetic energy and heat
Bartelt, P., Buser, O., & Platzer, K. (2007). Work minimisation in rock and snow avalanches: the competition between random kinetic energy and heat. In 1. Departmentkongress Bautechnik und Naturgefahren (p. (7 pp.). Ernst & Sohn.
Program Haefeli - Two-dimensional numerical simulation of the creeping deformation and temperature distribution in a phase changing snowpack
Bartelt, P., Christen, M., & Wittwer, S. (2000). Program Haefeli - Two-dimensional numerical simulation of the creeping deformation and temperature distribution in a phase changing snowpack. In E. Hjorth-Hansen, I. Holand, S. Løset, & H. Norem (Eds.), Snow engineering. Recent advances and developments. Proceedings of the fourth international conference on snow engineering (pp. 13-22). Balkema.
Triaxial creep tests on snow and a new microstructure-based snow viscosity law
Bartelt, P., & von Moos, M. (2000). Triaxial creep tests on snow and a new microstructure-based snow viscosity law. In E. Hjorth-Hansen, I. Holand, S. Løset, & H. Norem (Eds.), Snow engineering. Recent advances and developments. Proceedings of the fourth international conference on snow engineering (pp. 23-31). Balkema.
Modeling rockfall trajectories with non-smooth contact/impact mechanics
Bartelt, P., Gerber, W., Christen, M., & Bühler, Y. (2016). Modeling rockfall trajectories with non-smooth contact/impact mechanics. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Conference proceedings "Living with natural risks" (pp. 203-211).
Numerical simulation of snow avalanches: modelling dilatative processes with cohesion in rapid granular shear flows
Bartelt, P., Buser, O., Bühler, Y., Dreier, L., & Christen, M. (2014). Numerical simulation of snow avalanches: modelling dilatative processes with cohesion in rapid granular shear flows. In M. A. Hicks, R. B. J. B. Brinkgreve, & A. Rohe (Eds.), Numerical Methods in Geotechnical Engineering - Proceedings (pp. 327-332). CRC Press.
A short comparison between Voellmy-fluid and Criminale-Ericksen-Filby-fluid dense snow avalanche models
Bartelt, P., & Salm, B. (1998). A short comparison between Voellmy-fluid and Criminale-Ericksen-Filby-fluid dense snow avalanche models. In E. Hestnes (Ed.), NGI publication: Vol. 203. Proceedings of the anniversary conference 25 years of snow avalanche research (pp. 65-69). Norwegian Geotechnical Institute.
Dynamic magnification factors for snow avalanche impact (with pile-up) on walls and pylons
Bartelt, P., Buser, O., Christen, M., & Caviezel, A. (2019). Dynamic magnification factors for snow avalanche impact (with pile-up) on walls and pylons. In M. Papadrakakis & M. Fragiadakis (Eds.), Vol. 3. COMPDYN 2019. 7th international conference on computational methods in structural dynamics and earthquake engineering. Proceedings (pp. 4376-4385). Institute of Structural Analysis and Antiseismic Research, School of Civil Engineering, National Technical University of Athens (NTUA).
The SFISAR quasi two-dimensional model
Bartelt, P., & Gruber, U. (1998). The SFISAR quasi two-dimensional model. In C. B. Harbitz (Ed.), Norwegian Geotechnical Institute report. SAME Snow Avalanche Modelling, Mapping, and Warning in Europe (pp. 39-42).
Avalanche physics ploughs ahead
Bartelt, P., & Buser, O. (2001). Avalanche physics ploughs ahead. Physics World, 14(3), 25-29. https://doi.org/10.1088/2058-7058/14/3/27
A computational procedure for instationary temperature-dependent snow creep
Bartelt, P., & Christen, M. (1999). A computational procedure for instationary temperature-dependent snow creep. In K. Hutter, Y. Wang, & H. Beer (Eds.), Leclure notes in physics: Vol. 533. Advances in cold-region thermal engineering and sciences. Technological, environmental, and climatological impact. Proceedings of the 6th international symposium held in Darmstadt, Germany, 22-25 August 1999 (pp. 367-386). https://doi.org/10.1007/BFb0104195
Thermomechanical modelling of rock avalanches with debris, ice and snow entrainment
Bartelt, P., Christen, M., Bühler, Y., & Buser, O. (2018). Thermomechanical modelling of rock avalanches with debris, ice and snow entrainment. In A. S. Cardoso, J. L. Borges, P. A. Costa, A. T. Gomes, J. C. Marques, & C. S. Vieira (Eds.), Numerical methods in geotechnical engineering IX (pp. 1047-1054). Taylor & Francis.
Dispersive pressure, boundary jerk and configurational changes in debris flows
Bartelt, P., McArdell, B., Graf, C., Christen, M., & Buser, O. (2016). Dispersive pressure, boundary jerk and configurational changes in debris flows. International Journal of Erosion Control Engineering, 9(1), 1-6. https://doi.org/10.13101/ijece.9.1
Die Auswirkungen des Klimawandels auf alpine Massenbewegungen: das WSL Forschungsprogramm CCAMM
Bast, A., Phillips, M., Bründl, M., Stähli, M., Bartelt, P., Ortner, G., & Schweizer, J. (2020). Die Auswirkungen des Klimawandels auf alpine Massenbewegungen: das WSL Forschungsprogramm CCAMM. FAN Agenda, Fachleute Naturgefahren Schweiz (1), 15-17.
Lawinen und andere Schneebewegungen
Bebi, P., Bartelt, P., & Rixen, C. (2019). Lawinen und andere Schneebewegungen. In T. Wohlgemuth, A. Jentsch, & R. Seidl (Eds.), UTB: Vol. 5018. Störungsökologie (pp. 175-187). Haupt Verlag.
Avalanches and other snow movements
Bebi, P., Bartelt, P., & Rixen, C. (2022). Avalanches and other snow movements. In T. Wohlgemuth, A. Jentsch, & R. Seidl (Eds.), Landscape series: Vol. 32. Disturbance ecology (pp. 195-210). https://doi.org/10.1007/978-3-030-98756-5_9
Avalanche survival strategies for different parts of a flowing avalanche: merging theory and practice to increase your odds
Birkeland, K., Bartelt, P., & Meiners, T. (2008). Avalanche survival strategies for different parts of a flowing avalanche: merging theory and practice to increase your odds. Avalanche Review, 26(3), 12-13, 27.
Modeling the changes in microstructure of snow during metamorphism
Brown, R. L., Satyawali, P. K., Lehning, M., & Bartelt, P. (2001). Modeling the changes in microstructure of snow during metamorphism. Cold Regions Science and Technology, 33(2-3), 91-101. https://doi.org/10.1016/S0165-232x(01)00032-5
Measuring branch deflection of spruce branches caused by intercepted snow load
Bründl, M., Bartelt, P., Schneebeli, M., & Flühler, H. (1999). Measuring branch deflection of spruce branches caused by intercepted snow load. Hydrological Processes, 13(14-15), 2357-2369. https://doi.org/10.1002/(SICI)1099-1085(199910)13:14/15<2357::AID-HYP851>3.0.CO;2-O
Review and future challenges in snow avalanche risk analysis
Bründl, M., Bartelt, P., Schweizer, J., Keiler, M., & Glade, T. (2010). Review and future challenges in snow avalanche risk analysis. In I. Alcántara-Ayala & A. S. Goudie (Eds.), Geomorphological Hazards and Disaster Prevention (pp. 49-61). https://doi.org/10.1017/CBO9780511807527.005
 

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