Theoretical Study and Numerical Simulation of the Stress Fields of the Al_2O_3 Joints Brazed with Composite Filler Materials

机译：复合填料钎焊钎焊钎焊的应力场的理论研究和数值模拟

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Non-liner finite element code MSC.Marc was utilized to analysis the field of stress of the Al_2O_3 joints brazed with composite filler materials. The material properties of the filler materials were defined by using the mixing law, method of Mori-Tanaka and theory of Eshelby to ensure the accuracy and reliability of FEM results. The results shown stress in brazing bream is more serious than that in base material. The maximal stress can be found in the interface of joint. And the experimental result shown that the shear strength of joints increased from 93.75MPa(A1_2O_3p Ovol. pct) to 135.32MPa(Al_2O_3p 15vol. pct) when composition of titanium was 3wt pct in the filler metal.

机译：非衬里有限元码MSC.MARC用于分析钎焊复合填料钎焊的AL_2O_3关节的应力领域。通过使用混合法，Mori-Tanaka的混合法和eShelby理论来确定填料材料的材料特性，以确保有组织结果的准确性和可靠性。结果表明钎料中的应力比基材更严重。最大应力可以在接头的界面中找到。并且实验结果表明，接头的剪切强度从93.75MPa（A1_2O_3P OVOL.PCT）增加到135.32MPa（AL_2O_3P 15Vol.PCT），当钛的组成是填料金属中的3wt PCT时。

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《International Conference on Advanced Welding/Joining Technology》|2005年||共6页
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作者
Jianguo Yang; Hongyuan Fang; Shude Ji; State Key Laboratory of Advanced Welding Production Technology(SKL-AWPT) HIT; National Key Laboratory for High Energy Density Beam Processing Technology BAMTRI; Key Laboratory for Aviation Joining Technology BAMTRI;
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中图分类焊接的应用;
关键词
composite filler materials; brazed joints; FEM; residual stress; MSC.Marc;

机译：复合填料;钎焊关节;FEM;剩余压力;MSC.MARC;

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Theoretical Study and Numerical Simulation of the Stress Fields of the Al_2O_3 Joints Brazed with Composite Filler Materials

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