热弹性微拉伸固体在无粘性无限大流体中受重力作用下的三相滞后模型

IF 1.7 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Multidiscipline Modeling in Materials and Structures Pub Date : 2022-11-08 DOI:10.1108/mmms-08-2022-0162
M. Othman, Sarhan. Y. Atwa, E. E. Eraki, Mohamed F. Ismail
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引用次数: 0

摘要

目的利用三相滞后模型(3PHL)和Green-Naghdi理论(G-N III)研究了介质在重力作用下浸没在无限非粘性流体中的微拉伸热弹性半空间中的热弹性响应。设计/方法论/方法正模分析是用于获得物理量精确公式的分析技术。发现使用镁晶体元素作为应用,将重力对浸入三相滞后模型的无限流体中的微伸缩热弹性体的预测与Green–Naghdi的预测进行比较。人们注意到重力对所有物理量都有重大影响。还对波数的三个值和实部频率的三个数值进行了比较。独创性/价值这项工作涉及浸入无限无粘性流体中并受到引力场作用的热弹性微拉伸固体。控制方程是在3PHL模型和G-N理论的背景下建立的。该问题的解析解是通过正模分析得到的。物理量的比较如图所示,以研究重力、波数和频率的实部的影响。
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Thermoelastic micro-stretch solid immersed in an infinite inviscid fluid and subject to gravity under three-phase-lag model
PurposeIn this work, the thermoelastic response in a micro-stretch thermoelastic half-space submerged in an unlimited non-viscous fluid under gravity, the medium is studied using the three-phase-lag model (3PHL) and Green-Naghdi theory (G-N III).Design/methodology/approachThe normal mode analysis was the analytic technique used to obtain the exact formula of the physical quantities.FindingsThe magnesium crystal element is used as an application to compare the predictions induced by gravity on microstretch thermoelastic immersed in an infinite fluid of the three-phase-lag model with those for Green–Naghdi. Gravity has been noticed to have a major effect on all physical quantities. Comparisons were also made for three values of wave number and three values of the real part frequency.Originality/valueThis work is concerned with the thermoelastic micro-stretch solid immersed in an infinite and inviscid fluid and subjected to a gravitational field. The governing equations are formulated in the context of the 3PHL model and G-N theory. An analytical solution to the problem is obtained by employing normal mode analysis. Comparisons of the physical quantities are shown in figures to study the effects of gravity, wave number and the real part of the frequency.
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来源期刊
CiteScore
3.70
自引率
5.00%
发文量
60
期刊介绍: Multidiscipline Modeling in Materials and Structures is published by Emerald Group Publishing Limited from 2010
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