A static discrete element method with discontinuous deformation analysis

Abstract: For discrete element methods (DEMs), integrating the equation of motion based on Newton's second law is an integral part of the computation. Accelerations and velocities are involved even for modeling static mechanics problems. As a consequence, the accuracy can be ruined and numerous calculation steps are required to converge. In this study, we propose a static DEM based on discontinuous deformation analysis (DDA). The force of inertia is removed to develop a set of static equilibrium equations for distinct b… Show more

“…Zhu et al [12] reproduced the flow process of the landslide at Hongao landfill in China and estimated the arriving area using a full three-dimensional smoothed particle hydrodynamics (SPH) method. Although the above methods can be used for large deformation calculation, they cost such huge computing power that makes them not adequate to be used for the large-scale practical projects [13].…”

Forecasting Disastrous Characteristics of Highway Landslides Using the Material Point Method: A Surcharge‐Induced Perspective

“…Zhu et al [12] reproduced the flow process of the landslide at Hongao landfill in China and estimated the arriving area using a full three-dimensional smoothed particle hydrodynamics (SPH) method. Although the above methods can be used for large deformation calculation, they cost such huge computing power that makes them not adequate to be used for the large-scale practical projects [13].…”

Forecasting Disastrous Characteristics of Highway Landslides Using the Material Point Method: A Surcharge‐Induced Perspective

Fast stability assessment of rock slopes subjected to flexural toppling failure using adaptive moment estimation (Adam) algorithm

A convex cone programming based implicit material point method