Effect of Lamination Angle and Thickness on Analysis of Composite Plate Under Thermo Mechanical Loading

Q3 Engineering

Strojnicky Casopis Pub Date : 2017-04-01 DOI:10.1515/scjme-2017-0001

A. Choudhury, S. Mondal, S. Sarkar

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引用次数: 12

Abstract

Abstract Analytical formulation and solution of stress analysis of composite plate subjected to thermo mechanical loading for various ply orientation and thickness of lamina are studied. The main aim of the paper is to investigate how mechanical and thermo mechanical loading would affect the stress ratio and stress distribution of composite plate. The plate is composed of layers of glass-epoxy composite and the orientation of the layers is assumed to be antisymmetric about the neutral axis of the laminate. The plate is subjected to a combined mechanical loading of tensile force and moment along x direction. The thermo mechanical stress is calculated for different ply orientation and thickness ratio, subjected to a temperature change and mechanical loading. The effect of number of lamina and varying thickness of laminate on the stress ratio and stress distribution is studied. The results in this paper are obtained by use of MATLAB Programming and by Finite element software ANSYS 14. Results obtained from both the methods are compared. Such type of loading finds wide application in aircraft flying at high altitude, marine application, medical devices etc.

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层合角和层合厚度对复合材料板热机械载荷分析的影响

摘要研究了复合材料板在不同层向和层厚下的热载荷应力分析的解析公式和求解方法。本文的主要目的是研究机械和热机械载荷对复合材料板的应力比和应力分布的影响。该板由玻璃-环氧复合材料层组成，并且假定层的方向围绕层板的中性轴是反对称的。板受到沿x方向的拉力和力矩的联合机械载荷。在温度变化和机械载荷作用下，计算了不同铺层取向和厚度比下的热机械应力。研究了层数和层厚对应力比和应力分布的影响。本文的计算结果是利用MATLAB编程和有限元软件ANSYS 14得到的。比较了两种方法的计算结果。这种类型的载荷广泛应用于高空飞行的飞机，船舶应用，医疗设备等。

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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