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堆石坝变形宏细观分析的MPM-DEM层级多尺度方法

安妮周伟李易奥王頔马刚

水力发电学报2025，Vol.44Issue(5)：99-112,14.

水力发电学报2025，Vol.44Issue(5)：99-112,14.DOI:10.11660/slfdxb.20250509

堆石坝变形宏细观分析的MPM-DEM层级多尺度方法

MPM-DEM hierarchical multiscale method for macroscopic and microscopic analysis of deformation in rockfill dams

安妮 ¹周伟 ¹李易奥 ²王頔 ¹马刚¹

作者信息

1. 武汉大学水资源工程与调度全国重点实验室,武汉 430072||武汉大学水利工程科学研究院,武汉 430072
2. 武汉大学水资源工程与调度全国重点实验室,武汉 430072||中国电力工程顾问集团中南电力设计院有限公司,武汉 430060
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摘要

Abstract

This study develops a new method for in-depth analysis of the deformation mechanism during the construction and operation of rockfill dams,using a hierarchical multiscale computational approach that couples the Material Point Method(MPM)with the Discrete Element Method(DEM).As a critical type of structure in hydraulic engineering,a rockfill dam features deformation that involves complicated interaction between its particle-scale behavior and the overall response of its body;Understanding the mechanism of its micromechanical deformation is crucial for safety assessment,design,and construction.Aiming at a comprehensive capture of the deformation characteristics of a rockfill dam,we first discretize its body into multiple representative volume elements(RVEs),then simulate its behavior at the particle scale and capture variations in local stress and particle contact force in its body.For the different stages of dam construction,analysis of the spatial distribution patterns of stress and deformation reveals a significant impact of reservoir water level changes on its deviatoric stress and particle contact behavior.In the completion stage,the maximum settlement feature points exhibit significant contact anisotropy,with denser force chains in the vertical direction,indicating a higher efficiency of stress transfer in this direction.As the water level rises,significant changes occur in the contact state and force chain distribution in the dam body,resulting in an increased horizontal anisotropy at the maximum settlement point,thereby enhancing the dam's resistance to water pressure.During the normal reservoir stage,particle contact on the upstream side of the main rockfill zone weakens,and the coordination number decreases.The multiscale method developed in this study overcomes the limitations of traditional analytical approaches,providing a new quantitative framework for the deformation prediction,long-term stability evaluation,and design optimization of rockfill dams.

关键词

水利工程/堆石坝/颗粒材料/多尺度模拟/变形预测

Key words

hydraulic engineering/rockfill dam/granular material/multiscale simulation/deformation prediction

分类

水利科学

引用本文复制引用

安妮,周伟,李易奥,王頔,马刚..堆石坝变形宏细观分析的MPM-DEM层级多尺度方法[J].水力发电学报,2025,44(5):99-112,14.

基金项目

国家自然科学基金项目(52322907 （）

U23B20149 （）

52409171) （）

水力发电学报

OA北大核心

ISSN：1003-1243

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