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Three-dimensional Boundary Element Modeling for The Effect of Rotation on the Thermal Stresses of Anisotropic Materials |
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PP: 379-386 |
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doi:10.18576/amis/190213
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Author(s) |
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Mohamed A. Fahmy,
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Abstract |
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The suggested 3D boundary element method (BEM) tackles the rotation effect on thermal stresses of anisotropic materials by employing the exact transformation technique, which entails analytically translating the extra domain integral to the boundary without using internal treatments. To account for thermoelastic effects in anisotropic materials, the BEM analysis was implemented by re-expressing the fundamental solutions and their derivatives as double-Fourier-series. This analytical transformation approach has completely restored the BEMs distinctive notion that just the boundary must be discretized. The revised 3D boundary integral equation (BIE) is implemented and utilized to analyze such issues. Furthermore, the studies have shown that the BEM technique is highly effective in producing accurate results for thermal stress problems in anisotropic materials.
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