基于Moore-Gibson-Thompson热弹性理论的变电导率非局部微极双孔热弹性介质的记忆响应

IF 13 1区 工程技术 Q1 ENGINEERING, MARINE
Shishir Gupta, Rachaita Dutta, Soumik Das
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引用次数: 11

摘要

利用Eringen的非局部弹性理论,对微极双孔含孔洞热弹性材料(MDPTMWV)的热-力学响应进行了二维分析。在记忆相关导数和变电导率的背景下,将摩尔-吉布森-汤普森(MGT)热方程引入所考虑的模型。采用法向模态技术,求解了无量纲耦合运动控制方程,确定了位移、温度、空隙体积分数、微旋矢量、力应力张量和平衡应力矢量的解析表达式。几个二维图展示了各种参数的影响,如核函数、导热系数和非局域性。此外,不同的广义热弹性理论与变电导率进行了比较,以可视化与上述变量相关的分布的变化。还讨论了在存在和不存在不同参数的情况下的一些特殊情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Memory response in a nonlocal micropolar double porous thermoelastic medium with variable conductivity under Moore-Gibson-Thompson thermoelasticity theory

The present study enlightens the two-dimensional analysis of the thermo-mechanical response for a micropolar double porous thermoelastic material with voids (MDPTMWV) by virtue of Eringen’s theory of nonlocal elasticity. Moore-Gibson-Thompson (MGT) heat equation is introduced to the considered model in the context of memory-dependent derivative and variable conductivity. By employing the normal mode technique, the non-dimensional coupled governing equations of motion are solved to determine the analytical expressions of the displacements, temperature, void volume fractions, microrotation vector, force stress tensors, and equilibrated stress vectors. Several two-dimensional graphs are presented to demonstrate the influence of various parameters, such as kernel functions, thermal conductivity, and nonlocality. Furthermore, different generalized thermoelasticity theories with variable conductivity are compared to visualize the variations in the distributions associated with the prior mentioned variables. Some particular cases are also discussed in the presence and absence of different parameters.

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来源期刊
CiteScore
11.50
自引率
19.70%
发文量
224
审稿时长
29 days
期刊介绍: The Journal of Ocean Engineering and Science (JOES) serves as a platform for disseminating original research and advancements in the realm of ocean engineering and science. JOES encourages the submission of papers covering various aspects of ocean engineering and science.
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