带有霍尔电流和多双相滞后的粘贴热弹性多层圆柱体的非局部耦合应力振动

IF 0.6 4区 工程技术 Q4 MECHANICS Mechanics of Solids Pub Date : 2024-11-01 DOI:10.1134/S0025654424603045
L. Anitha, R. Mehala Devi, R. Selvamani, F. Ebrahimi
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引用次数: 0

摘要

本研究旨在开发一种热弹性模型,用于分析热弹性波在带有 LEMV/CFRP 界面层的复合空心圆柱体中的传播。该模型集成了修改后的非局部耦合应力理论,以解决与高阶时间导数有关的难题。推导过程产生了三个偏微分方程,用于控制轴对称模式下圆柱体的修正非局部耦合应力。通过应用线性弹性理论,在确保边界连续性的前提下,对这些方程进行求解,从而得出无牵引条件下圆柱体外表面的频率方程。研究探讨了波数和厚度的变化如何影响场内的频率、温度和位移。为了评估不同热弹性理论和非局部耦合应力参数的影响,研究采用了表格和图形进行比较和估算。这些可视化辅助工具为了解复合材料圆柱体在各种情况下的行为提供了宝贵的见解。
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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Nonlocal Couple Stress Vibration of Pasted Thermo Elastic Multilayered Cylinder with Hall Current and Multi Dual Phase Lags

This investigation aims to develop a thermoelasticity model to analyze the propagation of thermoelastic waves in a composite hollow circular cylinder with an LEMV/CFRP interface layer. The model integrates a modified non-local couple stress theory to address challenges related to higher-order time derivatives. The derivation yields three partial differential equations governing the modified non-local couple stress of the cylinder in axisymmetric mode. By applying linear elasticity theory, these equations are solved to derive frequency equations for the cylinder’s external surface under traction-free conditions while ensuring boundary continuity. The study investigates how variations in wave number and thickness affect the frequency, temperature, and displacements within the field. To evaluate the impact of different thermoelasticity theories and non-local coupled stress parameters, the research employs tables and graphs for comparison and estimation. These visual aids provide valuable insights into the behavior of the composite cylinder across various scenarios.

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来源期刊
Mechanics of Solids
Mechanics of Solids 医学-力学
CiteScore
1.20
自引率
42.90%
发文量
112
审稿时长
6-12 weeks
期刊介绍: Mechanics of Solids publishes articles in the general areas of dynamics of particles and rigid bodies and the mechanics of deformable solids. The journal has a goal of being a comprehensive record of up-to-the-minute research results. The journal coverage is vibration of discrete and continuous systems; stability and optimization of mechanical systems; automatic control theory; dynamics of multiple body systems; elasticity, viscoelasticity and plasticity; mechanics of composite materials; theory of structures and structural stability; wave propagation and impact of solids; fracture mechanics; micromechanics of solids; mechanics of granular and geological materials; structure-fluid interaction; mechanical behavior of materials; gyroscopes and navigation systems; and nanomechanics. Most of the articles in the journal are theoretical and analytical. They present a blend of basic mechanics theory with analysis of contemporary technological problems.
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