二维GDQ方法在任意变厚度非均匀边界条件下厚FG转盘分析中的应用

IF 1.5 4区工程技术 Q2 MATHEMATICS, APPLIED

Advances in Applied Mathematics and Mechanics Pub Date : 2023-09-01 DOI:10.4208/aamm.oa-2021-0237

H. Zharfi

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引用次数: 0

摘要

本文用二维微分求积法分析了具有非均匀边界条件和变厚度的厚梯度梯度（FG）旋转圆盘。材料特性通过幂律模式沿径向和轴向连续变化。采用三维固体力学理论将轴对称问题表述为二阶偏微分方程组。非均匀边界条件直接作用于控制方程，以达到方程的特征值系统。考虑并讨论了四种不同的磁盘文件形状。研究了幂律指数的影响，结果表明，通过使用沿径向特别是轴向功能变化的材料，可以控制应力和应变，从而提高圆盘的性能。与文献中其他可用方法的比较表明，在计算时间、鲁棒性和准确性方面，本方法具有良好的一致性。此外，还展示了新的应用，以便为同一主题的进一步研究提供结果。

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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Application of 2-D GDQ Method to Analysis a Thick FG Rotating Disk with Arbitrarily Variable Thickness and Non-Uniform Boundary Conditions

. In this paper two-dimensional differential quadrature method has been used to analyze thick Functionally Graded (FG) rotating disks with non-uniform boundary conditions and variable thickness. Material properties vary continuously along both radial and axial directions by a power law pattern. Three-dimensional solid mechanics theory is employed to formulate the axisymmetric problem as a second order system of partial differential equations. The non-uniform boundary conditions are exerted directly in to the governing equations in order to reach the eigenvalue system of equations. Four different disk proﬁle shapes are considered and discussed. The effect of power law exponent is also investigated and results show that by the use of material which functionally varied along the radial and especially axial directions the stresses and strains can be controlled so the capability of disk is increased. Comparison with other available approaches in the literature shows a good agreement here in terms of computational time, robustness and accuracy of the present method. Moreover, novel applications are shown in order to provide results for further studies in the same topics.

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来源期刊

Advances in Applied Mathematics and Mechanics MATHEMATICS, APPLIED-MECHANICS

CiteScore

2.60

自引率

7.10%

发文量

审稿时长

6 months

期刊介绍： Advances in Applied Mathematics and Mechanics (AAMM) provides a fast communication platform among researchers using mathematics as a tool for solving problems in mechanics and engineering, with particular emphasis in the integration of theory and applications. To cover as wide audiences as possible, abstract or axiomatic mathematics is not encouraged. Innovative numerical analysis, numerical methods, and interdisciplinary applications are particularly welcome.