基于有限元模拟的中厚板焊接800 ~ 500℃冷却速率估算

Tianjiao Liu, Xingdong Qiu, Z. Lu, Li-ming Dong
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引用次数: 3

摘要

本文采用有限元法模拟了中等厚度板在焊接过程中800 ~ 500℃的冷却速率。采用移动双椭球热源模拟焊接过程的热场,通过对传热特性的分析,研究了不同焊接参数(板厚、热输入和预热温度)对焊接过程的冷却速度的影响。通过将有限元结果与Rosenthal等传统解析解的计算结果进行对比,确定了确定中间厚度板的临界条件,并利用多项式方法对有限元结果进行回归分析,建立了中间厚度板焊接冷却速率的预测方程。讨论了该方程在预热温度条件下的适用范围。为验证预测方程的有效性,进行了相同参数下的焊接实验。实验结果与有限元分析结果吻合较好。
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Estimation of Cooling Rate from 800 °C to 500 °C in the Welding of Intermediate Thickness Plates Based on FEM Simulation
FEM (finite element method) simulation for estimating the cooling rate from 800 °C to 500 °C in welding cycle of plates with intermediate thickness is presented. Moving double ellipsoid heat sources were applied to simulate the thermal field of welding process, and the cooling rates were investigated with different welding parameters including plate thickness, heat input and preheating temperature according to the analysis of heat transfer characteristics. The critical condition for defining intermediate thickness of plates was determined through comparison between FEM results and calculation results from conventional analytical solutions of Rosenthal et al. and prediction equations of cooling rate in welding of plates with intermediate thickness were established based on regression analysis of FEM results using polynomial method. The feasible range of the equations with preheating temperature was discussed. The welding experiments with the same parameters were carried out to verify the effectiveness of the prediction equations. The compared results of thermal cycles and microstructures between experiment and FEM showed that a good agreement was obtained.
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