A hyperbolic theory for the analysis of laminated shallow shells with double curvature

IF 3.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Forces in mechanics Pub Date : 2023-11-14 DOI:10.1016/j.finmec.2023.100246

Anuja S. Jape, Atteshamuddin S. Sayyad

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Abstract

In this paper, higher-order closed-form analytical solutions to the static bending and free vibration problems of laminated composite shells with double curvature are obtained using a hyperbolic shear deformation theory. The current theory is a modification of the shape function provided by Soldatos [30] in his well-known hyperbolic theory. The distributions of transverse shear stresses through the thickness of the shell are precisely predicted by the current theory satisfying traction free boundary conditions at the top and the bottom surfaces of the shell. Hamilton's principle serves as the foundation for the development of equations of motion. Navier's method is used for the analysis of simply-supported laminated shells under static and free vibration conditions. Displacements, stresses, and natural frequencies are presented for different shells with double curvature. The results from past investigations are compared to verify the accuracy and efficacy of the present hyperbolic shell theory.

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双曲率层合浅壳分析的双曲理论

本文利用双曲剪切变形理论，得到了双曲率复合材料层合壳静力弯曲和自由振动问题的高阶闭型解析解。目前的理论是对Soldatos[30]在其著名的双曲理论中提供的形状函数的修正。目前的理论在满足壳体上下表面无牵引边界条件的情况下，精确地预测了横向剪应力随壳体厚度的分布。汉密尔顿原理是发展运动方程的基础。Navier的方法用于静力和自由振动条件下简支层合壳的分析。给出了不同双曲率壳的位移、应力和固有频率。通过与以往研究结果的比较，验证了双曲壳理论的准确性和有效性。

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