铝的循环、速率无关和可压缩响应的三维模型

IF 5.7 1区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

International Journal of Engineering Science Pub Date : 2024-06-20 DOI:10.1016/j.ijengsci.2024.104110

Lakshmanan Manimaran, U. Saravanan

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引用次数: 0

摘要

本文提出了一个与热力学相一致的、与速率无关的三维框架，用于研究金属的耗散反应。通过引入非负连续耗散率函数，将熵不等式转化为等式。由于所讨论的原因，将 Hencky 应变和 Cauchy 应力的构成关系参数化为置换应力，而不是塑性应变。置换应力的演化方程是这样得到的：在可能的过程中，实现耗散率最大化的过程，从而在尽可能短的时间内达到热力学平衡。为耗散函数和类似吉布斯势规定了适当的三维构成函数来模拟铝。横向应变作为单轴应变函数的变化在目前的公式和经典塑性中有所不同。与一些实验观察结果一致的是，在本公式中，材料在塑性变形过程中倾向于可压缩。因此，需要进一步的实验研究来选择合适的构成关系。

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Three-dimensional model for cyclic, rate-independent and compressible response of aluminium

A three-dimensional rate-independent framework consistent with thermodynamics is presented to study the dissipative response of metals. The entropy inequality is transformed into equality by introducing a non-negative, continuous rate of dissipation function. The constitutive relation that relates the Hencky strain and Cauchy stress is parametrized by replacement stress, instead of the plastic strain, for reasons discussed. The evolution equation for the replacement stress is obtained such that among the possible processes, the one that maximizes the rate of dissipation is realized so that thermodynamic equilibrium is achieved in the shortest possible time. Appropriate 3D constitutive functions to model aluminium are prescribed for the dissipation function and a Gibbs-like potential. The variation of the transverse strain as a function of the uniaxial strain differs between the present formulation and classical plasticity. Consistent with some of the experimental observations, the material tends to be compressible in the present formulation during plastic deformations. Thus, further experimental investigations are required to choose the appropriate constitutive relation.

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来源期刊

International Journal of Engineering Science 工程技术-工程：综合

CiteScore

11.80

自引率

16.70%

发文量

审稿时长

45 days

期刊介绍： The International Journal of Engineering Science is not limited to a specific aspect of science and engineering but is instead devoted to a wide range of subfields in the engineering sciences. While it encourages a broad spectrum of contribution in the engineering sciences, its core interest lies in issues concerning material modeling and response. Articles of interdisciplinary nature are particularly welcome. The primary goal of the new editors is to maintain high quality of publications. There will be a commitment to expediting the time taken for the publication of the papers. The articles that are sent for reviews will have names of the authors deleted with a view towards enhancing the objectivity and fairness of the review process. Articles that are devoted to the purely mathematical aspects without a discussion of the physical implications of the results or the consideration of specific examples are discouraged. Articles concerning material science should not be limited merely to a description and recording of observations but should contain theoretical or quantitative discussion of the results.