Buckling of Joined Composite Conical Shells Using Shear Deformation Theory under Axial Compression

Strojniški vestnik – Journal of Mechanical Engineering Pub Date : 2019-10-15 DOI:10.5545/sv-jme.2019.6146

M. Izadi, H. Shahrokh, M. Korayem

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Abstract

This paper investigates critical buckling loads in joined conical shells under axial compression. An analytical approach has been applied to study classical linear buckling of joined cones that are made of cross-ply fiber reinforced laminates. The governing equations have been extracted using first-order shear deformation theory (FSDT), and an analytical solution has been applied to extract critical buckling loads. Accordingly, the system of partial differential equations has been solved via separation of variables using Fourier expansion and power series method. The effects of the number of layers, lamination sequences, semi-vertex angles, shell thicknesses, shell lengths and boundary conditions on the stability of joined cones have been examined. For validation, the specific examples of the present study have been compared to previous studies. Using ABAQUSE/CAE software (a FEM-based software), the results of finite element have been extracted. The present method is in good agreement with the finite element and other research results. Finally, the differences in classical shell theory (CST) of Donnell type and first-order shear deformation theory have been discussed for different shell thicknesses.

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基于剪切变形理论的复合材料锥形壳轴压屈曲研究

本文研究了轴压作用下连接锥形壳的临界屈曲载荷。应用解析方法研究了交叉纤维增强层合板连接锥的经典线性屈曲问题。利用一阶剪切变形理论(FSDT)提取了控制方程，并采用解析解提取了临界屈曲载荷。据此，采用傅里叶展开法和幂级数法分离变量求解了偏微分方程组。考察了层数、层叠顺序、半顶角、壳厚、壳长和边界条件对连接锥稳定性的影响。为了验证，本研究的具体实例已与以往的研究进行了比较。利用ABAQUSE/CAE软件(基于有限元分析的软件)对有限元结果进行了提取。该方法与有限元及其它研究结果吻合较好。最后，讨论了不同壳体厚度下Donnell型经典壳体理论与一阶剪切变形理论的差异。

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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Strojniški vestnik – Journal of Mechanical Engineering

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