Analysis of a thick cylindrical FGM pressure vessel with variable parameters using thermoelasticity

IF 1.1 Q4 MECHANICS

Curved and Layered Structures Pub Date : 2023-01-01 DOI:10.1515/cls-2022-0207

El-Sayed Habib, Araby I. Mahdy, G. Ali, A. El-Megharbel, Eman El-Shrief

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引用次数: 0

Abstract

Abstract In this study, a closed-form analytical solution is derived to compute the stress formulations for a thick cylindrical pressure vessel made of functionally graded material (FGM) with varying parameters, which are mechanical and thermal boundary conditions. The assumed mechanical boundary condition is the time-dependent pressure acting on the internal surface of the cylinder, while the assumed thermal boundary condition is the transient temperature distribution over the cylinder thickness. The material properties are considered to be graded exponentially in the radial direction, except Poisson’s ratio which is assumed to be constant. The stress and displacement formulations are evaluated using Mathematica software for the uncoupled thermo-mechanical analysis. The results of radial, hoop, and axial stress are plotted at various times for two FGM cylinders, the SS304-Alumina FGM cylinder and the TZM-SIC FGM cylinder, to study the impact of using different materials for the same boundary conditions on the results. The results obtained in this study are beneficial as these contribute to the design and modeling of cylinders that are exposed to time-dependent internal pressure and transient temperature profiles.

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变参数厚圆柱形FGM压力容器的热弹性分析

摘要在本研究中，导出了一个闭合形式的解析解来计算由功能梯度材料（FGM）制成的厚圆柱形压力容器的应力公式，该压力容器具有不同的参数，即机械和热边界条件。假定的机械边界条件是作用在圆柱体内表面上的随时间变化的压力，而假定的热边界条件是圆柱体厚度上的瞬态温度分布。材料特性被认为在径向方向上呈指数分级，但泊松比假设为常数。应力和位移公式使用Mathematica软件进行非耦合热机械分析。绘制了SS304氧化铝FGM圆柱体和TZM-SIC FGM圆柱体在不同时间的径向、环向和轴向应力结果，以研究在相同边界条件下使用不同材料对结果的影响。本研究中获得的结果是有益的，因为这些结果有助于暴露于时间相关内压和瞬态温度分布的圆柱体的设计和建模。

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

Curved and Layered Structures MECHANICS-

CiteScore

2.60

自引率

13.30%

发文量

审稿时长

14 weeks

期刊介绍： The aim of Curved and Layered Structures is to become a premier source of knowledge and a worldwide-recognized platform of research and knowledge exchange for scientists of different disciplinary origins and backgrounds (e.g., civil, mechanical, marine, aerospace engineers and architects). The journal publishes research papers from a broad range of topics and approaches including structural mechanics, computational mechanics, engineering structures, architectural design, wind engineering, aerospace engineering, naval engineering, structural stability, structural dynamics, structural stability/reliability, experimental modeling and smart structures. Therefore, the Journal accepts both theoretical and applied contributions in all subfields of structural mechanics as long as they contribute in a broad sense to the core theme.