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Mathematical Model for Prediction and Optimization of Weld Bead Geometry in All-Position Automatic Welding of Pipes

机译：管道全位置自动焊接焊珠几何预测和优化的数学模型

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In this study all-position automatic tungsten inert gas (TIG) welding was exploited to enhance quality and efficiency in the welding of copper-nickel alloy pipes. The mathematical models of all-position automatic TIG weld bead shapes were conducted by the response surface method (RSM) on the foundation of central composition design (CCD). The statistical models were verified for their significance and adequacy by analysis of variance (ANOVA). In addition, the influences of welding peak current, welding velocity, welding duty ratio, and welding position on weld bead geometry were investigated. Finally, optimal welding parameters at the welding positions of 0° to 180° were determined by using RSM.

机译：在这项研究中，利用全位置自动钨惰性气体（TIG）焊接，以提高铜镍合金管焊接的质量和效率。通过中央成分设计（CCD）的响应面法（RSM）进行全位置自动TIG焊珠形状的数学模型。通过分析方差（ANOVA）来验证统计模型的意义和充分性。此外，研究了焊接峰值电流，焊接速度，焊接占空比和焊接位置对焊缝几何形状的影响。最后，通过使用RSM确定焊接位置0°至180°的最佳焊接参数。

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Baoyi Liao; Yonghua Shi; Yanxin Cui; Shuwan Cui; Zexin Jiang; Yaoyong Yi;
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年度 2018
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正文语种 eng
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Mathematical Model for Prediction and Optimization of Weld Bead Geometry in All-Position Automatic Welding of Pipes

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