在两种理论下，热弹性微拉伸固体浸入无限大的无粘流体中并受旋转影响

Q2 Materials Science Engineering Solid Mechanics Pub Date : 2023-01-01 DOI:10.5267/j.esm.2023.2.002

M. Othman, E. E. Eraki, Sarhan. Y. Atwa, Mohamed F. Ismail

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引用次数: 0

摘要

本文利用Green-Naghdi理论(G-N III)和三相滞后(3PHL)模型研究了微拉伸半空间浸没在无限无粘性流体中的热弹性响应。控制方程是在G-N理论和3PHL模型的背景下制定的。利用正态模态法得到了问题的解析解。利用镁晶体单元，比较了G-N理论和3PHL模型中浸入无限流体的微拉伸热弹性材料的旋转预测结果。人们注意到旋转对所有物理量都有重大影响。并对波数b的三个值和实部频率ω0的三个值进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Thermoelastic micro-stretch solid immersed in an infinite inviscid fluid and subject to a rotation under two theories

This work is interested with a thermoelastic response in a micro-stretch half-space submerged in an unlimited non-viscous fluid under rotation, the medium is studied using the theory of Green-Naghdi (G-N III) and the model of three-phase-lag (3PHL). The governing equations are formulated in the context of G-N theory and the 3PHL model. Analytical solution to the problem is acquired by utilizing the normal mode method. The magnesium crystal element is utilized as an application to compare the predictions induced by rotation on microstretch thermoelastic immersed in an infinite fluid of G–N theory with those for the 3PHL model. Rotation has been noticed to have a major effect on all physical quantities. Comparisons were also made for three values of wave number b and three values of the real part frequency ω0.

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来源期刊

Engineering Solid Mechanics Materials Science-Metals and Alloys

CiteScore

3.00

自引率

0.00%

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期刊介绍： Engineering Solid Mechanics (ESM) is an online international journal for publishing high quality peer reviewed papers in the field of theoretical and applied solid mechanics. The primary focus is to exchange ideas about investigating behavior and properties of engineering materials (such as metals, composites, ceramics, polymers, FGMs, rocks and concretes, asphalt mixtures, bio and nano materials) and their mechanical characterization (including strength and deformation behavior, fatigue and fracture, stress measurements, etc.) through experimental, theoretical and numerical research studies. Researchers and practitioners (from deferent areas such as mechanical and manufacturing, aerospace, railway, bio-mechanics, civil and mining, materials and metallurgy, oil, gas and petroleum industries, pipeline, marine and offshore sectors) are encouraged to submit their original, unpublished contributions.