Comparison of the Laser and Electron Beam Welding of Steel Sheets Treated by Nitro-Oxidation

M. Marônek, J. Bárta, Katarína Bártová
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引用次数: 2

Abstract

Nitro-oxidized steel specimens welded by a CO2 laser and an electron beam were examined for quality and integrity by visual inspection, microstructure, and microhardness analysis. Visual inspection of the specimens welded by laser revealed the lack of root penetration at maximal welding speed from the selected welding speed range (30 to 60 mm/s) and a neat weld at the welding speed of 40 mm/s. However, in comparison to laser beam welding, the electron beam welding (EBW) process produced the weld joints with a wider heat affected zone, while the weld joints were much more prone to porosity. The microstructure of the weld joints made by both the laser beam welding and EBW methods did not show any abnormalities in phase composition owing to the presence of nitrides in the surface layer of the materials welded after nitro-oxidation.
激光与电子束焊接钢板氮氧化处理的比较
采用CO2激光和电子束焊接的氮氧化钢试样,通过目视检查、显微组织和显微硬度分析来检验其质量和完整性。激光焊接试样的目测结果表明,在所选择的焊接速度范围内(30 ~ 60mm /s),在最大焊接速度范围内没有根部熔透,在焊接速度为40mm /s时焊缝整齐。然而,与激光焊接相比,电子束焊接产生的焊缝热影响区更宽,焊缝更容易出现气孔。由于氮氧化后焊接材料的表层存在氮化物,激光束焊接和EBW焊接接头的显微组织均未出现相组成的异常。
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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