利用田口设计优化和评估铁素体不锈钢焊接的机械和电化学性能

M. F. Benlamnouar, N. Bensaid, Mohammed Oubelkacem Azzoug, T. Saadi, M. Zidani, R. Badji
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摘要

这项工作的主要目的是优化 AISI 430 FSS 焊缝的焊接参数,重点是使用田口设计法最大限度地减小铁素体晶粒尺寸。选择速度和焊接电流这两个输入参数来选择最小晶粒尺寸,并确定它们对铁素体晶粒尺寸的影响。采用方差分析法评估了不同因素对焊缝整体质量的影响。通过信噪比分析预测了参数的最佳组合,它是在使用 80 A、6mm/s 的情况下获得的。在图像相关性、光学和电子显微镜的辅助下,通过拉伸试验对最佳焊点进行了实验表征。结果表明,焊接速度对晶粒大小的影响最大,达 84.30%。最佳焊接参数提供了最精细的微观结构,熔合区和热影响区的马氏体析出率低,强度和延展性结合得最好,拉应力分布均匀,导致母材发生韧性断裂。此外,研究还发现,优化的焊接参数可以获得更强的抗腐蚀性,表现出更低的腐蚀电流,这表明与细晶粒相比,粗铁素体晶粒更容易受到腐蚀。
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Optimization and Evaluation of Mechanical and Electrochemical Properties of Ferritic Stainless Steel Welding Using Taguchi Design
The main objective of this work is to optimize welding parameters of AISI 430 FSS welds, focused to minimization of ferrite grains size using Taguchi’s design. Two input parameters of speed and welding current; were chosen to select the minimum grain size and to ascertain their effects on ferrite grain size. ANOVA method was used to evaluate the influence of varying factors on the overall quality of welds. Optimal combination of the parameters were be predicted by S/N analyses, it was accessed on employing an 80 A with 6mm/s. Experimental characterizations of optimum weld joint were performed by using tensile test assisted by image correlations, optical and electronic microscopy. As a result, welding speed had the main influence on grain size by 84.30%. Optimum welding parameter offered finest microstructure with low rate of martensite precipitates in both fusion zone and heat affected zone, and best combination of strength and ductility, it presented a homogeneous distribution of tensile stresses that caused a ductile fracture in base material. ,it is found that that optimized welding parameters permit to give greater resistance to corrosion, which exhibit a lower corrosion current, indicating that coarse ferrite grains are more susceptible to corrosion compared to fine grains.
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