Computational methods of heat affected zone determination during Arc Weld surfacing

METAL 2020 Conference Proeedings Pub Date : 2020-01-01 DOI:10.37904/metal.2020.3531
M. Matuszewski, R. Koňar, Daniel Harmaniak, A. Zaborski
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Abstract

In the paper, the methods for determining heat affected zones during arc weld surfacing is presented. For this purpose, numerical simulations of the temperature field were performed using the Ansys and Sysweld programs based on the finite element method. The Goldak heat source model was used in the computations. Based on the maximum temperature values, the characteristic heat affected zones (remelting zone, fusion line, austenitization zone) have been determined. The results of calculations were compared with the boundaries of individual zones determined by the analytical method using a double volumetric Gaussian-parabolic heat source model and obtained experimentally. Finally, the possibility of mapping the fusion line was assessed using particular heat source methods, programs and models.
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堆焊过程热影响区的计算方法
本文介绍了确定堆焊过程中热影响区的方法。为此,基于有限元法,利用Ansys和Sysweld软件对温度场进行了数值模拟。计算采用Goldak热源模型。根据最高温量值,确定了典型的热影响区(重熔区、熔合线、奥氏体化区)。将计算结果与采用双体积高斯-抛物热源模型的解析法确定的各区域边界进行了比较,并得到了实验结果。最后,使用特定的热源方法、程序和模型评估了绘制融合线的可能性。
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METAL 2020 Conference Proeedings
METAL 2020 Conference Proeedings
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