基于键合周动力理论的准静态条件下渐进式破坏准脆性模型

IF 0.7 Q4 MECHANICS Theoretical and Applied Mechanics Pub Date : 2023-01-01 DOI:10.2298/tam230404006y
H. Yakin, M. Rejab, Nur Hashim, N. Nikabdullah
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引用次数: 0

摘要

为了更好地预测固体材料损伤的起裂和扩展,提出了一种基于键合周动力理论的准静态加载下的准脆性损伤模型。由于在动态构型中建立了围动力学方程,本文采用自适应动态松弛方程来实现围动力学方程的定常。为了准确地描述粘性材料的渐进破坏过程,我们将动力学方程与新的准脆性材料损伤模型结合起来。给出了用该模型求解二维压缩和拉伸问题的算例。本文提出了将自适应动力学方程方法引入准脆性材料损伤模型的研究进展。这种合并允许更准确地表示损坏材料的行为,特别是在静态或准静态加载情况下,使框架更接近现实。这项研究为周动力学公式被用于比现在更广泛的加载条件行为类别铺平了道路。
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A new quasi-brittle damage model implemented under quasi-static condition using bond-based peridynamics theory for progressive failure
A novel quasi-brittle damage model implemented under quasistatic loading condition using bond-based peridynamics theory for progressive failure is proposed to better predict damage initiation and propagation in solid materials. Since peridynamics equation of motion was invented in dynamic configuration, this paper applies the adaptive dynamic relaxation equation to achieve steady-state in peridynamics formulation. To accurately characterise the progressive failure process in cohesive materials, we incorporate the dynamic equation with the novel damage model for quasi-brittle materials. Computational examples of 2D compressive and tensile problems using the proposed model are presented. This paper presents advancement by incorporating the adaptive dynamic equation approach into a new damage model for quasi-brittle materials. This amalgamation allows for a more accurate representation of the behavior of damaged materials, particularly in static or quasi-static loading situations, bringing the framework closer to reality. This research paves the way for the peridynamics formulation to be employed for a far broader class of loading condition behaviour than it is now able to.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
4
审稿时长
32 weeks
期刊介绍: Theoretical and Applied Mechanics (TAM) invites submission of original scholarly work in all fields of theoretical and applied mechanics. TAM features selected high quality research articles that represent the broad spectrum of interest in mechanics.
期刊最新文献
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