Creep instability analysis of viscoelastic sandwich shell panels

IF 2.1 4区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Nasrin Jafari, Mojtaba Azhari
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Abstract

This paper considers the creep instability analysis of time-dependent sandwich cylindrical and spherical shell panels of quadrilateral planforms having elastic faces and viscoelastic cores according to the first-order shear deformation theory. The viscoelastic properties of the core are extracted based on the Boltzmann integral law. The equilibrium equation is expressed utilizing the virtual work principle. The space and time parts of the displacement vector are approximated using the simple HP-cloud mesh-free method (which has H refinement and P enrichment properties), and the exponential time function, respectively. The stiffness and geometry matrices are constructed in the Laplace–Carson domain. Finally, the time behavior of viscoelastic sandwich shell panels under in-plane compressions is predicted by solving the eigenvalue problem in the Laplace–Carson domain. Also, the maximum compressive load is determined which can be applied to the time-dependent sandwich shell panels without any creep instability. This critical compression is less than the buckling load of the viscoelastic sandwich shell panel at time zero.

Abstract Image

粘弹性夹层壳板的蠕变不稳定性分析
本文根据一阶剪切变形理论,对具有弹性面和粘弹性芯的四边形平面夹层圆柱形和球形壳面板进行了随时间变化的蠕变不稳定性分析。内核的粘弹性是根据波尔兹曼积分法提取的。平衡方程利用虚功原理表示。位移矢量的空间和时间部分分别使用简单的 HP-云无网格法(具有 H 细化和 P 富集特性)和指数时间函数进行近似。刚度和几何矩阵是在拉普拉斯-卡森域中构建的。最后,通过求解拉普拉斯-卡森域中的特征值问题,预测了粘弹性夹层壳板在平面压缩下的时间行为。此外,还确定了在不发生蠕变不稳定性的情况下,可应用于随时间变化的夹层壳面板的最大压缩载荷。该临界压缩力小于粘弹性夹层壳面板在零时的屈曲载荷。
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来源期刊
Mechanics of Time-Dependent Materials
Mechanics of Time-Dependent Materials 工程技术-材料科学:表征与测试
CiteScore
4.90
自引率
8.00%
发文量
47
审稿时长
>12 weeks
期刊介绍: Mechanics of Time-Dependent Materials accepts contributions dealing with the time-dependent mechanical properties of solid polymers, metals, ceramics, concrete, wood, or their composites. It is recognized that certain materials can be in the melt state as function of temperature and/or pressure. Contributions concerned with fundamental issues relating to processing and melt-to-solid transition behaviour are welcome, as are contributions addressing time-dependent failure and fracture phenomena. Manuscripts addressing environmental issues will be considered if they relate to time-dependent mechanical properties. The journal promotes the transfer of knowledge between various disciplines that deal with the properties of time-dependent solid materials but approach these from different angles. Among these disciplines are: Mechanical Engineering, Aerospace Engineering, Chemical Engineering, Rheology, Materials Science, Polymer Physics, Design, and others.
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