We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Consistent modeling of a catastrophic flowslide at the Shenzhen landfill using a hydro-elasto-plastic model with solid-fluid transition.
- Authors
Li, Z. H.; Jiang, Y. J.; Lv, Q.; Sousa, L. R.; He, M. C.
- Abstract
Flow-type landslides are an important hazard that can cause great destruction due to the rapid flow velocity and large disaster area. This paper presents a catastrophic flowslide that recently occurred at a landfill in Shenzhen, China. This disaster involved an area about 1100 m in length and 630 m in maximum width, and caused the death of 77 people and the destruction of 33 buildings. The precise reason for the landfill’s failure is still unknown, and therefore we try to contribute an increased understanding of the event for future prevention. In this study, the failure mechanism of the studied slope was analyzed and described under partially saturated condition. The solid-fluid transition during the flowslide occurrence was described using a unified constitutive model. The model was used to perform the hydro-elasto-plastic modeling in the pre-failure stage, the viscous modeling in the post-failure stage, and the second-order work criterion was introduced in between to model the solid-fluid transition. The consistent evolution of the flowslide, including initiation, propagation, and deposit stages, was simulated and analyzed using the finite element method with Lagrangian integration points after careful calibration of the viscous parameters. The numerical results were compared with the real case and used to explain the failure mechanism.
- Subjects
SHENZHEN (Guangdong Sheng, China : East); LANDFILLS; HYDROELASTICITY; ELASTOPLASTICITY; VISCOUS flow
- Publication
Acta Geotechnica, 2018, Vol 13, Issue 6, p1451
- ISSN
1861-1125
- Publication type
Article
- DOI
10.1007/s11440-018-0672-3