Rotational slope failure mechanisms for homogeneous dykes with slightly different initial cohesion: (a) no failure for ci = 48 kPa; (b) initial slope failure for ci = 47 kPa; (c) flooding for ci = 46 kPa. Source: Remmerswaal et al (2019)
Innovatieve componenten
Dit werk toont de nieuwste ontwikkelingen in het gebruik van niet-triviale randvoorwaarden, om de Materiaal Punten Methode beter toepasbaar te maken voor algemeen gebruik. De ontwikkelde methodes detecteren de grens van het materiaal, vanwaar de krachten verdeeld kunnen worden over de knooppunten van het achtergrondrooster. MPM wordt hierdoor beter toepasbaar op verschillende geotechnische problemen, onder andere dijkafschuivingen.
Related Content
Conference proceedings
- Remmerswaal, G., Hicks, M., & Vardon, P. (2018). Ultimate limit state assessment of dyke reliability using the random material point method. 89-90. Abstract from ComGeo IV: 4th Internation Symposium on Computational Geomechanics, Assisi, Italy.
- Remmerswaal, G., Hicks, M., & Vardon, P. (2019). Influence of Residual Dyke Strength on Dyke Reliability Using the Random Material Point Method. In J. Ching, D-Q. Li, & J. Zhang (Eds.), Proceedings of the 7th International Symposium on Geotechnical Safety and Risk (ISGSR 2019): State-of-the-Practice in Geotechnical Safety and Risk (pp. 775-780). [IS4-4] Taipei, Taiwan. https://doi.org/10.3850/978-981-11-2725-0 IS4-4-cd
- Remmerswaal, G., Bolognin, M., Vardon, P., Hicks, M., & Rohe, A. (2019). Implementation of non-trivial boundary conditions in MPM for geotechnical applications. In Proceedings of the Second International Conference on the Material Point Method for Modelling Soil–Water–Structure Interaction: 8 – 10 January 2019, University of Cambridge, United Kingdom
Book chapter
- Remmerswaal, G., Hicks, M.A., Vardon, P.J. (2019) Slope Reliability and Failure Analysis using Random Fields, in The Material Point Method for Geotechnical Engineering: A Practical Guide (ed.) J. Fern, A. Rohe, K. Soga, Eduardo Alonso, New York, pp. 287-296.
Last modified: 20/12/2021