Nitrogen desorption by high-nitrogen steel weld metal during CO2</sub> laser welding

Wei Dong; Hiroyuki Kokawa; Yutaka S. Sato; Susumu Tsukamoto

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Nitrogen desorption by high-nitrogen steel weld metal during CO2 laser welding

机译：CO2激光焊接过程中高氮钢焊接金属的氮脱附

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Nitrogen desorption by high-nitrogen steels (HNSs) containing 0.32 and 0.53 pct nitrogen during CO2 laser welding in an Ar-N2 gas mixture was investigated and the obtained data were compared with those for arc welding and at the equilibrium state predicted by Sieverts’ Law. Although the nitrogen content in the weld metal during CO2 laser welding was lower than that in the as-received base material in all conditions, the nitrogen desorption was larger in the top part of the weld metal than in the keyhole region. The nitrogen desorption in the Ar atmosphere was less during CO2 laser welding than during arc welding. With the increase in nitrogen partial pressure, the nitrogen content in the weld metal sharply increased during arc welding, but only slightly increased during CO2 laser welding. The nitrogen absorption and desorption of the HNS weld metal were much smaller during CO2 laser welding than during arc welding.

机译：研究了在Ar-N2 气体混合物中进行CO2 激光焊接过程中含0.32和0.53 pct的高氮钢（HNS）的氮脱附，并将所得数据与电弧焊和Sieverts定律预测的平衡状态。尽管在所有条件下，CO2激光焊接过程中焊缝金属中的氮含量均低于所接受的母材中的氮含量，但焊缝金属顶部中的氮脱附量要大于锁孔区域中的。在CO 2激光焊接过程中，氩气气氛中的氮解吸量少于电弧焊接过程中。随着氮气分压的增加，电弧焊过程中焊缝金属中的氮含量急剧增加，而CO2激光焊接过程中仅略有增加。与电弧焊相比，H2S焊接金属的氮吸收和解吸量要小得多。

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《Metallurgical and Materials Transactions B》 |2005年第5期|677-681|共5页
作者
Wei Dong; Hiroyuki Kokawa; Yutaka S. Sato; Susumu Tsukamoto;
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the Department of Materials Processing Graduate School of Engineering Tohoku University 980-8579 Sendai Japan;

the Department of Materials Processing Graduate School of Engineering Tohoku University 980-8579 Sendai Japan;

the Department of Materials Processing Graduate School of Engineering Tohoku University 980-8579 Sendai Japan;

the Welding Metallurgy Group Steel Research Center National Institute for Materials Science 035-0047 Tsukuba Japan;

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Nitrogen desorption by high-nitrogen steel weld metal during CO2 laser welding

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