A plastic-damage cohesive zone model for shear rupture band in geomaterials under mixed-mode and cyclic loading

IF 5.3 1区工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computers and Geotechnics Pub Date : 2024-10-30 DOI:10.1016/j.compgeo.2024.106829

Xiao Miao, Daosheng Ling, Anhao Pan, Hai Wang

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Abstract

The characterization of the mechanical behavior of the shear rupture band is essential to the analysis of the strain localization failure of geotechnical structures, with a key focus on describing the plastic-damage behavior and dilatancy of the geomaterial. A novel plastic-damage cohesive zone model is presented based on the unified plastic-damage modeling framework, in which an enhanced dilatancy angle evolution law is put forward to capture the dilatancy, and the yield function and the dissipation potential function are proposed to account for the tension/compression-shear coupling effect. The capability of the proposed model is demonstrated by its constitutive responses under several typical monotonic and cyclic loading paths, and further validated by simulating three laboratory tests of rock joint and silt-steel interface. The notable agreement between the simulation results and their experimental counterparts illustrates the effectiveness of the proposed model in characterizing the mechanical behavior of the shear rupture band under mixed-mode and cyclic loading conditions, including post-peak hardening/softening, plastic-damage behavior, and hysteresis.

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混合模式和循环加载下土工材料剪切断裂带的塑性破坏内聚区模型

剪切断裂带力学行为的表征对于岩土结构应变局部破坏的分析至关重要，重点是描述岩土材料的塑性破坏行为和扩张性。本文基于统一的塑性破坏建模框架，提出了一种新的塑性破坏内聚带模型，其中提出了一种增强的扩张角演化规律来捕捉扩张性，并提出了屈服函数和耗散势函数来解释拉伸/压缩-剪切耦合效应。该模型在几种典型的单调和循环加载路径下的构成响应证明了其能力，并通过模拟岩石节理和淤泥-钢界面的三次实验室试验进一步验证了其能力。模拟结果与实验结果之间的显著一致性说明了所提出的模型在描述混合模式和循环加载条件下剪切断裂带的力学行为（包括峰后硬化/软化、塑性破坏行为和滞后）方面的有效性。

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来源期刊

Computers and Geotechnics 地学-地球科学综合

CiteScore

9.10

自引率

15.10%

发文量

438

审稿时长

45 days

期刊介绍： The use of computers is firmly established in geotechnical engineering and continues to grow rapidly in both engineering practice and academe. The development of advanced numerical techniques and constitutive modeling, in conjunction with rapid developments in computer hardware, enables problems to be tackled that were unthinkable even a few years ago. Computers and Geotechnics provides an up-to-date reference for engineers and researchers engaged in computer aided analysis and research in geotechnical engineering. The journal is intended for an expeditious dissemination of advanced computer applications across a broad range of geotechnical topics. Contributions on advances in numerical algorithms, computer implementation of new constitutive models and probabilistic methods are especially encouraged.