Effect of concentric intensity distributions on spatter formation in full penetration welding of high-alloy steels

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引用次数: 0

Abstract

Welding of high-alloy steels results in spatter formation addressing high welding speeds above 8 m/min, i.e., the seam quality is significantly reduced due to material losses and adhering spatter. A reduction of spatter can be addressed by using concentric intensity distributions consisting of core and ring, by affecting melt and metal vapor flow. In this paper, the understanding of spatter formation on sheet top and bottom side is significantly enhanced for full penetration welds of AISI 304. Therefore, different concentric intensities and tophat distributions were systematically studied and compared. Fundamental interactions between concentric intensity distributions and spatter formation during full penetration welding were determined and summarized in model concepts. In particular, spatter formation can be reduced on both sheet sides using a concentric intensity distribution due to a smaller keyhole geometry with a smaller angle of inclination of the keyhole front.

同心强度分布对高合金钢全熔透焊接中飞溅形成的影响
在焊接高合金钢时,如果焊接速度超过 8 米/分钟,就会产生飞溅,即由于材料损耗和附着飞溅,焊缝质量会大大降低。通过影响熔体和金属蒸汽的流动,使用由核心和环组成的同心强度分布,可以减少飞溅。在本文中,对 AISI 304 全熔透焊缝而言,板材顶面和底面的飞溅形成情况有了更深入的了解。因此,本文对不同的同心强度和顶部分布进行了系统研究和比较。确定了全熔透焊接过程中同心强度分布与飞溅形成之间的基本相互作用,并用模型概念进行了总结。特别是,由于键孔的几何形状较小,键孔前端的倾斜角度较小,因此使用同心强度分布可减少板材两侧的飞溅形成。
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