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Auteurs principaux: Bui, Hoang Giang, Ninic, Jelena, Meschke, Günther
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2504.17476
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author Bui, Hoang Giang
Ninic, Jelena
Meschke, Günther
author_facet Bui, Hoang Giang
Ninic, Jelena
Meschke, Günther
contents The stress integration of critical soil model is usually based on implicit Euler algorithm, where the stress predictor is corrected by employing a return mapping algorithm. In the case of large load step, the solution of local nonlinear system to compute the plastic multiplier may not be attained. To overcome this problem, a sub-stepping scheme shall be used to improve the convergence of the local nonlin- ear system solution strategy. Nevertheless, the complexity of the tangent operator of the sub-stepping scheme is high. This complicates the use of Newton-Raphson algorithm to obtain global quadratic convergence. In this paper, a formulation for consistent tangent operator is developed for implicit sub-stepping integration for the modified Cam-Clay model and unified Clay and Sand model. This formulation is highly efficient and can be used with problem involving large load step, such as tun- nel simulation.
format Preprint
id arxiv_https___arxiv_org_abs_2504_17476
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Implicit Sub-stepping Scheme for Critical State Soil Models
Bui, Hoang Giang
Ninic, Jelena
Meschke, Günther
Computational Physics
The stress integration of critical soil model is usually based on implicit Euler algorithm, where the stress predictor is corrected by employing a return mapping algorithm. In the case of large load step, the solution of local nonlinear system to compute the plastic multiplier may not be attained. To overcome this problem, a sub-stepping scheme shall be used to improve the convergence of the local nonlin- ear system solution strategy. Nevertheless, the complexity of the tangent operator of the sub-stepping scheme is high. This complicates the use of Newton-Raphson algorithm to obtain global quadratic convergence. In this paper, a formulation for consistent tangent operator is developed for implicit sub-stepping integration for the modified Cam-Clay model and unified Clay and Sand model. This formulation is highly efficient and can be used with problem involving large load step, such as tun- nel simulation.
title Implicit Sub-stepping Scheme for Critical State Soil Models
topic Computational Physics
url https://arxiv.org/abs/2504.17476