WLAM中梁形及工艺参数对焊缝几何形状的影响

IF 4.2 Q2 ENGINEERING, MANUFACTURING
Pierre Lapouge, Nora Hayrant, Frédéric Coste
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引用次数: 0

摘要

金属丝激光增材制造(WLAM)是一种快速制造低复杂度金属零件的新兴工艺。在本文中,用填充物将低合金碳钢ER120单珠焊接在S355J2基底上,以再现WLAM中所满足的条件。研究了工艺参数(功率、送丝速度、行进速度、光斑尺寸)对珠粒稳定性和几何形状的影响。还研究了具有双光斑的配置,发现其结果与相同面积的单个较大光斑相似。对于每个焊道尺寸(高度、宽度、面积、深度),拟合了与工艺参数的幂律关系。提出了基于体积能量密度和焓的描述符来描述从传导模式焊接到钥匙孔阶段的过渡,这可能导致零件中产生孔隙。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of the beam shape and process parameters on bead geometry in WLAM

Wire laser additive manufacturing (WLAM) is an emerging process to build rapidly metal parts of low complexity. In this paper, single beads of low alloy carbon steel, ER120, were welded with a filler on a S355J2 substrate to reproduce the conditions met in WLAM. The impact of the process parameters (power, wire feedrate, travel speed, spot size) on the stability and geometry of the beads were investigated. A configuration with a dual spot was also studied and found to give analogous results to a single, larger spot of the same area. For each bead dimension (height, width, area, depth) a power law relationship with the process parameters is fitted. Descriptors based on volume energy density and enthalpy were proposed to describe the transition from a conduction mode welding to a keyhole stage, which can lead to the creation of pores in the part.

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来源期刊
Additive manufacturing letters
Additive manufacturing letters Materials Science (General), Industrial and Manufacturing Engineering, Mechanics of Materials
CiteScore
3.70
自引率
0.00%
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0
审稿时长
37 days
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