The Effect of Weld Chemistry on the Likely Primary Water Stress Corrosion Cracking Susceptibility of Alloy 82 Dissimilar Metal Welds

机译：焊接化学对82合金异种金属焊缝可能的初次水应力腐蚀开裂敏感性的影响

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Alloy 82 dissimilar weld joints between carbon steel and Alloy 600 were exposed to a simulated primary water environment consisting of hydrogenated steam at 480 °C and 1 bar. Dilution from the carbon steel to the weld was significant, particularly in the root where Fe was enriched to 35 at. % and Cr was depleted to 10 at. %. The heterogeneous composition of the weld from root to crown resulted in differences in internal and external oxidation tendency. An Fe-rich external surface oxide formed on the weld root which may help to prevent embrittlement and SCC by internal intergranular oxidation.

机译：碳钢和合金600之间的合金82不同的焊接接头暴露于由480℃和1巴的氢化蒸汽组成的模拟初级水环境。从碳钢到焊缝的稀释显着，特别是在富含Fe的根部，富含35。％和Cr耗尽至10。％。从根到冠的焊缝的异质组合物导致内部和外部氧化趋势的差异。在焊接根部形成富含Fe的外表氧化物，这可能有助于通过内部晶间氧化预防脆化和SCC。

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《Annual conference of the Canadian Nuclear Society;CNS/CNA student conference》|2015年|1234-1238|共5页
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S.Y. Persaud; S. Ramamurthy; R.C. Newman;
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1. Stress corrosion cracking in dissimilar metal welds with 304L stainless steel and Alloy 82 in high temperature water [J] . Tsung-Kuang Yeh, Guan-Ru Huang, Mei-Ya Wang, Progress in Nuclear Energy . 2013,第MARa期

机译：304L不锈钢和82合金在高温水中对异种金属焊缝的应力腐蚀开裂
2. Role of water chemistry and microstructure in stress corrosion cracking in the fusion boundary region of an Alloy 182-A533B low alloy steel dissimilar weld joint in high temperature water [J] . Qunjia Peng, He Xue, Juan Hou, Corrosion science . 2011,第12期

机译：182-A533B低合金钢异种接头在高温水中的熔合边界区域中水化学和微观结构在应力腐蚀开裂中的作用
3. Stress corrosion cracking initiation and short crack growth behaviour in Alloy 182 weld metal under simulated boiling water reactor hydrogen water chemistry conditions [J] . Bai Juxing, Ritter Stefan, Seifert Hans-Peter, Corrosion science . 2018,第feba期

机译：模拟沸水反应堆氢水化学条件下182合金焊接金属的应力腐蚀开裂和短裂纹扩展行为
4. The Effect of Weld Chemistry on the Likely Primary Water Stress Corrosion Cracking Susceptibility of Alloy 82 Dissimilar Metal Welds [C] . S.Y. Persaud, S. Ramamurthy, R.C. Newman Annual conference of the Canadian Nuclear Society . 2015

机译：焊接化学对合金82异种金属焊缝的初级水应力腐蚀裂纹裂缝敏感性的影响
5. Indications of Stress Corrosion Cracking Resistance in Alloy 82 Dissimilar Metal Welds in Simulated Primary Water Environments [D] . Persaud, Suraj 2011

机译：模拟的一次水环境中82合金异种金属焊缝的耐应力腐蚀开裂迹象
6. Stress Corrosion Cracking Susceptibility of 304L Substrate and 308L Weld Metal Exposed to a Salt Spray [O] . Chia-Hao Hsu, Tai-Cheng Chen, Rong-Tan Huang, 2017

机译：304L基材和308L焊接金属在盐雾下的应力腐蚀开裂敏感性
7. Effects of alloy chemistry, cold work, and water chemistry on corrosion fatigue and stress corrosion cracking of nickel alloys and welds. [O] . Chopra, O. K., Soppet, W. K., Shack, W. J., 2001

机译：合金化学，冷加工和水化学对镍合金和焊缝腐蚀疲劳和应力腐蚀开裂的影响。
8. Stress-Corrosion Cracking of Alloys 600 and 690 and Weld Metals No. 82 and No. 182 in High-Temperature Water. Interim Report [R] . Page, R. A. 1982

机译：合金600和690以及高温水中焊接金属82和182的应力腐蚀开裂。中期报告

The Effect of Weld Chemistry on the Likely Primary Water Stress Corrosion Cracking Susceptibility of Alloy 82 Dissimilar Metal Welds

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