Effects of Nitrogen on Weld Metal Microstructure and Toughness in Submerged Arc Welding

机译：氮对埋弧焊焊缝金属组织和韧性的影响

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The effects of nitrogen content on weld metal impact toughness in submerged arc welding were investigated and interpreted in terms of microstructural changes and solid solution hardening. The weld metal impact toughness in as-welded condition decreased with increasing nitrogen content from 110 to 200 ppm. The weld metal microstructure changed with increasing nitrogen content; ferrite with second phase increased at the expense of tough acicular ferrite. In addition to microstructural changes, the microhardness of acicular ferrite increased gradually with the nitrogen content. Therefore, the loss of impact toughness can be attributed to a combination of the effects of microstructural changes and solid solution hardening.

机译：研究了氮含量对埋弧焊焊缝金属冲击韧性的影响，并从微观组织变化和固溶硬化方面进行了解释。焊接条件下的焊接金属冲击韧性随着氮含量从110 ppm增加到200 ppm而降低。焊缝金属组织随着氮含量的增加而变化。第二相的铁素体以坚韧的针状铁素体为代价而增加。除显微组织变化外，针状铁素体的显微硬度随氮含量逐渐增加。因此，冲击韧性的损失可归因于微观结构变化和固溶硬化的综合作用。

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来源
《International Conference on Processing amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) 》|2006年|P.39063911|共2页
会议地点 Vancouver(CA)
作者
Kook-soo Bang; Woo-yeol Kim; Chan Park; Young-ho Ahn; Jong-bong Lee;
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作者单位

Division of Advanced Materials Science and Engineering, Pukyong National University, Pusan 608-739, Korea;

Technical Research Laboratories, POSCO, Pohang 790-785, Korea;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题 ;
关键词
weld metal; microstructure; toughness; nitrogen;

机译：焊接金属;组织;韧性;氮;

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专利

1. Microstructure and fracture toughness of 316L high nitrogen weld metal produced by high-pressure nitrogen arc welding [J] . Yasushi Kikuchi, Osamu Kamiya, Kazuo Kumagai, Welding Research Abroad . 1998 ,第2期

机译：高压氮弧焊生产的316L高氮焊缝金属的组织和断裂韧性
2. MICROSTRUCTURE AND FRACTURE TOUGHNESS OF 316L HIGH NITROGEN WELD METAL PRODUCED BY HIGH-PRESSURE NITROGEN ARC WELDING [J] . Yasushi KIKUCHI, Osamu KAMIYA, Kazuo KUMAGAI, Transactions of JWRI . 1997 ,第1期

机译：高压氮弧焊生产316L高氮焊缝金属的组织和断裂韧性
3. Effects of Chemical Compositions of the Submerged Arc Welding Wires on Impact Toughness of the Weld Metals for the Pipeline Steel [J] . D.L. REN, F.R. XIAO, P. TIAN, Key Engineering Materials . 2007 ,第Pt1期

机译：埋弧焊丝化学成分对管线钢焊接金属冲击韧性的影响
4. Effects of Nitrogen on Weld Metal Microstructure and Toughness in Submerged Arc Welding [C] . Kook-soo Bang, Woo-yeol Kim, Chan Park, International Conference on Proceeding amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) . 2006

机译：氮对埋弧焊焊缝金属组织和韧性的影响
5. Advanced characterization techniques in understanding the roles of nickel in enhancing strength and toughness of submerged arc welding high strength low alloy steel multiple pass welds in the as-welded condition. [D] . Sham, Kin-Ling. 2014

机译：先进的表征技术，用于了解镍在焊接条件下对埋弧焊高强度低合金钢多道次焊缝的强度和韧性的作用。
6. Microstructure and Charpy Impact Toughness of a 2.25Cr-1Mo-0.25V Steel Weld Metal [O] . Kefan Wu, Yingjie Yan, Rui Cao, 2020

机译：2.25Cr-1Mo-0.25V钢焊缝金属的微观结构和夏比冲击韧性
7. MICROSTRUCTURE AND FRACTURE TOUGHNESS OF 316L HIGH NITROGEN WELD METAL PRODUCED BY HIGH-PRESSURE NITROGEN ARC WELDING(Materials, Metallurgy Weldability) [O] . KIKUCHI Yasushi, KAMIYA Osamu, KUMAGAI Kazuo, 2013

机译：高压氮弧焊生产的316L高氮焊缝金属的组织和断裂韧性（材料，冶金和焊接性）
8. Influence of the Composition and Microstructure on the Mechanical Properties of Single Pass Weld Metal Obtained with Two-Run Multipower Submerged Arc Welding of 35 mm Fe 510 Quality Steels [R] . Berkhout, C. F., Sipkes, M. P. 1977

机译：35 mm Fe 510优质钢二次多功能埋弧焊组成和组织对单道焊缝金属力学性能的影响

Effects of Nitrogen on Weld Metal Microstructure and Toughness in Submerged Arc Welding

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