Numerical simulation of stress distribution in Al_2O_3-TiC/Q235 diffusion bonded joints |
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| Authors: | Shen Xiaoqin Li Yajiang Wang Juan Huang Wanqun Key Lab of Liquid Structure Heredity of Materials Ministry of Education Sh ong University Jinan School of Mechatronics Engineering Sh ong Jianzhu University . |
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| Affiliation: | [1]Key Lab of Liquid Structure and Heredity of Materials, Ministry of Education, Shandong University, Jinan, 250061 [2]School of Mechatronics Engineering, Shandong Jianzhu University, Jinan, 250101 |
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| Abstract: | The distributions of the axial stress and shear stress in Al2O3-TiC/Q235 diffusion bonded joints were studied using finite element method (FEM). The effect of interlayer thickness on the axial stress and shear stress was also investigated. The results indicate that the gradients of the axial stress and shear stress are great near the joint edge. The maximal shear stress produces at the interface of the Al2O3-TiC and Ti interlayer. With the increase of Cu interlayer thickness, the magnitudes of the axial stress and shear stress first decrease and then increase. The distribution of the axial stress changes greatly with a little change in the shear stress. The shear fracture initiates at the interface of the Al2O3-TiC/ Ti interlayer with high shear stress and then propagates to the Al2O3-TiC side, which is consistent with the stress FEM calculating results. |
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| Keywords: | Al2O3-TiC composite ceramic Q235 steel diffusion bonding stress distribution finite element method |
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