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王志锋, 陈佩寅, 吴伟, 陈燕, 陈建民, 鲍洪. 厚板带极埋弧堆焊温度场的有限元模拟[J]. 焊接学报, 2009, (1): 89-92.
引用本文: 王志锋, 陈佩寅, 吴伟, 陈燕, 陈建民, 鲍洪. 厚板带极埋弧堆焊温度场的有限元模拟[J]. 焊接学报, 2009, (1): 89-92.
shu
WANG Zhifeng, CHEN Peiyin, WU Wei, CHEN Yan, ZHANG Jianmin, Bao Heng. Finite element simulation of temperature field for submerged arc strip overlaying on thick plate[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2009, (1): 89-92.
Citation: WANG Zhifeng, CHEN Peiyin, WU Wei, CHEN Yan, ZHANG Jianmin, Bao Heng. Finite element simulation of temperature field for submerged arc strip overlaying on thick plate[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2009, (1): 89-92.
shu

厚板带极埋弧堆焊温度场的有限元模拟

Finite element simulation of temperature field for submerged arc strip overlaying on thick plate

    摘要
  • 摘要: 由带极埋弧堆焊原理及Goldak热源模型理论设计了带极埋弧堆焊有限元热源模型,基于有限元软件MSC.MARC平台,编写FORTRAN子程序来实现移动热源的加载,并采用了MARC软件对厚板带极埋弧堆焊温度场进行了数值模拟,同时对焊缝形貌及试验测得的热循环曲线进行验证,得到了与试验结果较吻合的温度场计算结果.结果表明,提出的热源模型适合带极埋弧堆焊过程数值模拟。

     

    Abstract: A thermal source for submerged arc overlaying is designed based on its principle and heat source model of Goldak, and a fortran subroutine is compiled to implement the translation of thermal source in the FEA software MSC.MARC. Finite element simulation of temperature field of submerged arc strip overlaying on thick plate was established. The simulation results are in good accordance with the actual thermal cycle curve, which proved the model is correct.

     

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