CW CO_2 laser welding of Al-Mg alloys with filler wires

机译：填充丝对铝镁合金进行连续CO_2激光焊接

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The CW CO_2 laser weldability of various Al-Mg alloys was investigated in terms of weld strength, ductility, Vickers hardness, formability and solidification cracking tendency when both autogenous and wire feed welding were made. Tensile strength of the laser welds was lower than that of the corresponding base metals, and it was linearly proportional to the Mg content of the weld metal. Formability and ductility of Al-Mg alloy laser welds were lower than those of corresponding base alloys as well. As for the weld solidification structure, as the Mg content increased in the weld metal, more equiaxed grains developed. Hence, softening of weld metal and solidification cracking were decreased in the weld metal containing higher Mg. Solidification cracking of Al-Mg alloy laser welds showed the highest susceptibility at 1.6 to 1.9wt.% Mg, and it decreased with further increase of Mg content.

机译：研究了自生焊和送丝焊两种Al-Mg合金的CW CO_2激光可焊性，包括焊接强度，延展性，维氏硬度，可成形性和凝固裂纹倾向。激光焊缝的拉伸强度低于相应的母材，并且与焊缝金属的Mg含量成线性比例关系。 Al-Mg合金激光焊缝的可成形性和延展性也低于相应的基础合金。至于焊缝凝固组织，随着焊缝金属中Mg含量的增加，出现了更多等轴晶。因此，在含有较高Mg的焊接金属中，焊接金属的软化和凝固裂纹降低。 Al-Mg合金激光焊缝的凝固裂纹在Mg为1.6至1.9wt。％时表现出最高的磁化率，并且随着Mg含量的进一步增加而降低。

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来源
《International Welding/Joining Conference-Korea; 20070510-12; Seoul(KR)》|2007年|P.539-542|共4页
会议地点 Seoul(KR)
作者
J W Yoon; E R Wallach;
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作者单位

Dept of Advanced Materials Engineering, Dongeui University, 24 Gayadong, Jingu, Busan, Korea;

Dept of Materials Sci and Eng, Univ of Cambridge, Pembroke St, Cambridge, CB2 3QZ U.K.;

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会议组织
原文格式 PDF
正文语种 eng
中图分类焊接工艺;
关键词
cw co_2 laser welding; al-mg alloys; filler wires; mechanical properties; formability; solidification cracking;

机译：cw co_2激光焊接；铝合金；填充焊丝；力学性能；成形性；凝固裂纹;

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CW CO_2 laser welding of Al-Mg alloys with filler wires

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