用多区域边界元法计算变热膨胀系数fgm界面裂纹的热应力强度因子

IF 3.4 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Mechanics of Materials Pub Date : 2025-01-30 DOI:10.1016/j.mechmat.2025.105266

Yen-Ling Chung, Kun-Lin Lee

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引用次数: 0

摘要

杨氏模量和泊松比不变但热膨胀系数变化的功能梯度材料（fgm）是本文研究的重点。目的是利用边界元法（BEM）评价α - fgm界面裂纹在热载荷作用下的热应力强度因子（TSIF）。通过傅里叶级数展开式推导出Navier方程的特解，求解α - fgm上的热载荷等同于体力。这使得BEM的应用不需要修改内核函数。然后对该特解进行积分，定义了齐次问题的边界条件。然后，使用多区域边界元计算齐次解。最后，将齐次解与特解结合得到了问题的完全解。本文研究了单层αFGM中边缘裂纹和两层αFGM中界面裂纹的TSIFs。女性生殖器切割α。在温度载荷下。TSIF、双材料特性、热膨胀系数失配和裂纹长度变化之间的相关性正在研究中。

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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Evaluation of thermal stress intensity factors of an interface crack in FGMs with varying thermal expansion coefficient by multi-region BEM

Functionally Graded Materials (FGMs) with constant Young's modulus and Poisson's ratio but varying thermal expansion coefficients termed

α FGM

are the focus of this study. The objective is to evaluate the thermal stress intensity factors (TSIF) of interface cracks in

α FGMs

under thermal loading using the Boundary Element Method (BEM). The thermal loading on

α FGM

, equated to body forces, is addressed by deriving a particular solution to Navier's equation through Fourier series expansion. This enables the application of BEM without necessitating kernel function modifications. Then with this particular solution integrated, the boundary conditions of the homogeneous problem are defined. Subsequently, the homogeneous solution is computed using the multi-region BEM. Finally, the complete solutions are obtained by combining both the homogeneous and particular solutions. This study evaluates the TSIFs of an edge crack in a single-layer

α FGM

and an interface crack in a two-layer.

α FGM

. under temperature loadings. The correlations between TSIF, bi-material characteristics, thermal expansion coefficient mismatch, and varying crack lengths are under investigation.

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来源期刊

Mechanics of Materials 工程技术-材料科学：综合

CiteScore

7.60

自引率

5.10%

发文量

243

审稿时长

46 days

期刊介绍： Mechanics of Materials is a forum for original scientific research on the flow, fracture, and general constitutive behavior of geophysical, geotechnical and technological materials, with balanced coverage of advanced technological and natural materials, with balanced coverage of theoretical, experimental, and field investigations. Of special concern are macroscopic predictions based on microscopic models, identification of microscopic structures from limited overall macroscopic data, experimental and field results that lead to fundamental understanding of the behavior of materials, and coordinated experimental and analytical investigations that culminate in theories with predictive quality.