Process optimization and thermomechanical simulation of residual stresses and temperature distribution in the laser-beam penetration welds of 61Ni-21Cr-9Mo alloy and 99.3Fe-0.45Mn-0.2C steel joints

Shubham Sharma, Jujhar Singh, V. Aggarwal, Abhinav Sharma, Gursharan Singh, Shalab Sharma, Munish Mehta
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引用次数: 1

Abstract

Laser welding is one of the important welding processes in industries for joining similar or different metals. Demand of dissimilar metal welding has increased now a days from high performance, cost saving and efficiency point of view. Various parameters like speed, beam power, spot diameter affect the quality, strength and cost of welding process. In this paper the influence of speed, beam power and spot diameter over strength of welded specimen is studied using Taguchi orthogonal array method. Two dissimilar metals such as 61Ni-21Cr-9M o alloy and 99.3Fe-0.45M n-0.2C steel is welded using laser beam. The experiments are carried out as per Taguchi orthogonal array design matrix to predict optimum process parameters Analysis of variance (ANOVA) is carried out to determine significantly affecting parameter and the mathematical model to estimate ultimate tensile strength has been developed using Regression method. The simulation of welding process to predict temperature distribution and residual stresses is predicted.
61Ni-21Cr-9Mo合金与99.3Fe-0.45Mn-0.2C钢激光熔透焊缝残余应力和温度分布的工艺优化及热力学模拟
激光焊接是工业上连接相似或不同金属的重要焊接工艺之一。从高性能、节约成本和提高效率的角度出发,对异种金属焊接的需求日益增加。速度、光束功率、光斑直径等参数影响焊接质量、强度和成本。本文采用田口正交阵列法研究了速度、光束功率和光斑直径对焊接试样强度的影响。采用激光束焊接61Ni-21Cr-9M o合金和99.3Fe-0.45M n-0.2C钢两种异种金属。试验采用田口正交设计矩阵预测最佳工艺参数,采用方差分析确定显著影响参数,并采用回归方法建立了估算极限拉伸强度的数学模型。对焊接过程进行模拟,预测温度分布和残余应力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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