A TPDP-MPM-based approach to understanding the evolution mechanism of landslide-induced disaster chain

A TPDP-MPM-based approach to understanding the evolution mechanism of landslide-induced disaster chain

Blog Article

With complex topographic and hydrological characteristics, the landslide-induced surge disaster chain readily develops in mountainous and gorge areas, posing a huge challenge for infrastructure construction.This landslide-induced surge disaster chain involves a complex fluid-solid coupling between the landslide mass and a water body and exhibits complex energy conversion and dissipation characteristics, which is challenging to deal with using traditional finite element analysis.In this study, the energy evolution characteristics in the whole process of Hobby Paint the disaster chain were first investigated, and the momentum-conservation equations for different stages were established.Then, the two-phase double-point material point method (TPDP-MPM) was used to model the landslide-induced surge disaster chain, and an experiment involving block-induced surge was modeled and simulated to validate this method.Finally, three generalized models were established for the landslide-induced surge process in a U-shaped valley, including subaerial, partly submerged, and submarine scenarios.

The interaction mechanism between the landslide mass and the water body in the disaster chain was revealed by defining the educational toys system energy conversion ratio and the mechanism of evolution of the disaster chain from the perspective of energy.The results help further evaluate the secondary disasters, given the submerged position of the landslide mass.