Buckling Analysis of Rectangular Beams Having Ceramic Liners at Its Top and Bottom Surfaces with the help of the Exact Transfer Matrix

International Journal of Electrical Engineering and Applied Sciences Pub Date : 2021-05-29 DOI:10.24107/IJEAS.865695

V. Yıldırım

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Abstract

In this study the elastic buckling behavior of beams with rectangular cross section is studied analytically. It is assumed that both the top and bottom surfaces of the beam are ceramic coated. The aluminum (Al) is chosen as a core material while the aluminum-oxide (Al2O3) is preferred as a liner (face) material. The transfer matrix method based on the Euler-Bernoulli beam theory is employed in the analysis. The exact transfer matrix in terms of equivalent bending stiffness is presented together with the exact buckling equations for hinged-hinged, clamped-hinged, clamped-free, and finally clamped-clamped boundary conditions. After verifying the results for beams without liners, dimensionless buckling loads of the beam with ceramic liners are numerically computed for each boundary condition. The effect of the thickness of the ceramic liner on the buckling loads is also investigated. It is found that a ceramic liner enhances noticeably the buckling loads. As an additional study those effects are also examined for the ratios of elasticity modulus of face material to core material in a wide range.

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基于精确传递矩阵的上下表面陶瓷衬垫矩形梁屈曲分析

本文对矩形截面梁的弹性屈曲行为进行了分析研究。假设梁的上下表面均为陶瓷涂层。选用铝(Al)作为芯材，选用氧化铝(Al2O3)作为衬里(面)材料。采用基于欧拉-伯努利梁理论的传递矩阵法进行分析。给出了以等效弯曲刚度表示的精确传递矩阵，以及铰链-铰链、夹紧-铰链、无夹紧和最后夹紧-夹紧边界条件的精确屈曲方程。在验证了无衬垫梁的结果后，对各边界条件下有陶瓷衬垫梁的无量纲屈曲载荷进行了数值计算。研究了陶瓷衬垫厚度对屈曲载荷的影响。结果表明，陶瓷衬垫能显著提高结构的屈曲载荷。作为一项额外的研究，这些影响也检查了面材料和芯材料的弹性模量在很大范围内的比率。

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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来源期刊

International Journal of Electrical Engineering and Applied Sciences

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审稿时长

12 weeks