Intergranular corrosion behavior of high nitrogen austenitic stainless steel 被引量：6

Intergranular corrosion behavior of high nitrogen austenitic stainless steel

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摘要 The intergranular corrosion （IGC） behavior of high nitrogen austenitic stainless steel （HNSS） sensitization treated at 650-950℃ was investigated by the double loop electrochemical potentiodynamic reactivation （DL-EPR） method. The effects of the electrolytes, scan rate, sensitizing temperature on the susceptibility to IGC of HNSS were examined. The results show that the addi-tion of NaCl is an effective way to improve the formation of the cracking of a passive film in chromium-depleted zones during the reactivation scan. Decreasing the scan rate exhibits an obvious effect on the breakdown of the passive film. A solution with 2 mol/L H2SO4＋1 mol/L NaCl＋0.01 mol/L KSCN is suitable to check the susceptibility to IGC of HNSS at a sensitizing temperature of 650-950℃ at a suitable scan rate of 1.667 mV/s. Chromium depletion of HNSS is attributed to the precipitation of Cr2N which results in the susceptibility to IGC. The synergistic effect of Mo and N is suggested to play an important role in stabilizing the passive film to prevent the attack of IGC. The intergranular corrosion （IGC） behavior of high nitrogen austenitic stainless steel （HNSS） sensitization treated at 650-950℃ was investigated by the double loop electrochemical potentiodynamic reactivation （DL-EPR） method. The effects of the electrolytes, scan rate, sensitizing temperature on the susceptibility to IGC of HNSS were examined. The results show that the addi-tion of NaCl is an effective way to improve the formation of the cracking of a passive film in chromium-depleted zones during the reactivation scan. Decreasing the scan rate exhibits an obvious effect on the breakdown of the passive film. A solution with 2 mol/L H2SO4＋1 mol/L NaCl＋0.01 mol/L KSCN is suitable to check the susceptibility to IGC of HNSS at a sensitizing temperature of 650-950℃ at a suitable scan rate of 1.667 mV/s. Chromium depletion of HNSS is attributed to the precipitation of Cr2N which results in the susceptibility to IGC. The synergistic effect of Mo and N is suggested to play an important role in stabilizing the passive film to prevent the attack of IGC.

作者 Hua-bing Li Zhou-hua Jiang Zu-rui Zhang Yang Cao Yan Yang

机构地区 School of Materials and Metallurgy

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2009年第6期654-660,共7页 矿物冶金与材料学报（英文版）

基金 supported by the National Natural Science Foundation of China (No.50534010) and Baosteel Group Corporation

关键词 intergranular corrosion high nitrogen austenitic stainless steel SENSITIZATION passive film chromium depletion intergranular corrosion high nitrogen austenitic stainless steel sensitization passive film chromium depletion

分类号 TG142.25 [金属学及工艺—金属材料] TG142.71 [金属学及工艺—金属材料]

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参考文献13

1LI Hua-bing JIANG Zhou-hua SHEN Ming-hui YOU Xiang-mi.High Nitrogen Austenitic Stainless Steels Manufactured by Nitrogen Gas Alloying and Adding Nitrided Ferroalloys[J].Journal of Iron and Steel Research International,2007,14(3):63-68. 被引量：15
2Tae-Ho Lee,Sung-Joon Kim,Setsuo Takaki.Time-temperature-precipitation characteristics of high-nitrogen austenitic Fe?18Cr?18Mn?2Mo?0.9N steel[J].Metallurgical and Materials Transactions A.2006(12)
3T. Amadou,H. Sidhom,C. Braham.Double loop electrochemical potentiokinetic reactivation test optimization in checking of duplex stainless steel intergranular corrosion susceptibility[J].Metallurgical and Materials Transactions A.2004(11)
4P. Muraleedharan,J.B. Gnanamoorthy,P. Rodriguez.Degree of sensitization and intergranular stress corrosion cracking susceptibility of type 304 stainless steel[].Corrosion.1996
5Z. Stonawska,M. Svoboda,M. Sozanska, et al.Structural analysis and intergranular corrosion tests of AISI 316L steel[].J Microsc.2006
6U.K. Mudali,R.K. Dayal,J.B. Gnanamoorthy, et al.Relationship between pitting and intergranular corrosion of nitrogen-bearing austenitic stainless steels[].Iron and Steel Institute of Japan.1996
7A.P. Majidi,M.A. Streicher.Potentiodynamic reactivation method for detecting sensitization in AISI 304 stainless steels[].Corrosion.1984
8M.K. Ahn,H.J. Kwon,J.H. Lee.Predicting susceptibility of alloy 600 to intergranular stress corrosion cracking using a modified electrochemical potentiodynamic reactivation test[].Corrosion.1995
9X.Q. Wu,S Xu,J.B. Huang, et al.Uniform corrosion and intergranular corrosion behavior of nickel-free and manganese alloyed high nitrogen stainless steels[].Materials and Corrosion Werkstoffe und Korrosion.2008
10T.F. Wu,T.P. Cheng,W.T. Tsai.Effect of electrolyte composition on the electrochemical potentiodynamic reactivation behavior of Alloy 600[].Journal of Nuclear Materials.2001

二级参考文献5

1B. E. Paton,V. Ya. Saenko,Yu. M. Pomarin,L. B. Medovar,G. M. Grigorenko,B. B. Fedorovskii,V. L. Petrenko,A. V. Chernets.Arc slag remelting for high strength steel & various alloys[J].Journal of Materials Science.2004(24)
2JI ANG Zhou-hua,LI Hua-bing,CHEN Zhao-ping,et al.The Nitrogen Solubility in Molten Stainless Steel[].Steel Re-search International.2005
3Stein G,Huchlenbroich I.Manufacturing and Application of High Nitrogen Steels[].Materials and Manufacturing Processes.2004
4Mudali U K,Raj B.High Nitrogen Steels and Stainless Steels[]..2004
5Simmons J W.High-Nitrogen Alloying of Stainless Steels[].Journal of Materials Science.1996

共引文献14

1梁敏,陈津,林万明,刘科.高碳锰铁粉固相脱碳热力学研究[J].铁合金,2009,40(1):14-17. 被引量：7
2刘海定,王东哲,魏捍东,李永友,胥忠伟,孙威.高氮奥氏体不锈钢的研究进展[J].特殊钢,2009,30(4):45-48. 被引量：30
3Hua-bing Li Zhou-hua Jiang Yan Yang Yang Cao Zu-rui Zhang.Pitting corrosion and crevice corrosion behaviors of high nitrogen austenitic stainless steels[J].International Journal of Minerals,Metallurgy and Materials,2009,16(5):517-524. 被引量：16
4MA Shao-hua,CHU Shao-jun,ZHANG Zhi-min,QIU Yun-long.Principle and Practice of High Nitrogen Steel Melting by Blowing Ammonia Gas[J].Journal of Iron and Steel Research International,2010,17(2):6-9. 被引量：2
5Zhou-hua Jiang Zu-rui Zhang Hua-bing Li Zhen Li Qi-feng Ma.Microstructural evolution and mechanical properties of aging high nitrogen austenitic stainless steels[J].International Journal of Minerals,Metallurgy and Materials,2010,17(6):729-736. 被引量：2
6李静媛,李东,范光伟,秦丽雁,李国平.节镍无磁不锈钢Cr18Ni6Mn3N的组织及性能[J].北京科技大学学报,2012,34(4):397-403. 被引量：4
7耿国锋,孔凡亚.高氮钢全氧量和夹杂物控制试验研究[J].炼钢,2013,29(5):43-46. 被引量：1
8李花兵,姜周华,冯浩,朱红春,张祖瑞.Influence of chemical composition and cold deformation on aging precipitation behavior of high nitrogen austenitic stainless steels[J].Journal of Central South University,2013,20(12):3354-3362. 被引量：1
9曾祥群,刘润藻,朱荣,汤旭炜,沈汉.高氮钢热加工性能研究[J].工业加热,2016,45(2):1-4. 被引量：3
10宁小智,邢长军,雍歧龙,翁建寅.氮含量对无镍奥氏体不锈钢力学性能的影响[J].中国冶金,2019,29(5):53-57. 被引量：18

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1LI Hua-bing, JIANG Zhou-hua, FENG Hao, MA Qi-feng, ZHAN Dong-ping (School of Materials and Metallurgy, Northeastern University, Shenyang 110819, Liaoning, China).Aging Precipitation Behavior of 18Cr-16Mn-2Mo-1.1N High Nitrogen Austenitic Stainless Steel and Its Influences on Mechanical Properties[J].Journal of Iron and Steel Research International,2012,19(8):43-51. 被引量：10
2潘钱付,刘超红,唐睿,蒋明忠,易伟.Ti、Zr微合金化310S不锈钢的制备研究[J].核动力工程,2012,33(S2):70-74. 被引量：2
3李鹏燕,熊毅,陈路飞,任凤章,王晓国.深冷轧制对AISI 310S不锈钢组织和性能的影响[J].材料热处理学报,2015,36(3):112-117. 被引量：7
4荣凡,康喜范,郎宇平.含氮奥氏体不锈钢的敏化行为[J].钢铁,2005,40(5):62-64. 被引量：10
5王剑志,罗仕清,黄晓斌.超(超)临界锅炉用Super304H钢管研究试制[J].钢铁,2006,41(1):43-46. 被引量：17
6孙玉梅,邹小平.Super304H不锈钢锅炉管评述[J].锅炉技术,2007,38(1):52-55. 被引量：25
7朱平,赵建仓,柴晓岩,牛锐锋,赵军,刘亚芬.SUPER304H奥氏体耐热钢焊接材料匹配与接头性能研究[J].电力设备,2007,8(4):43-46. 被引量：18
8LI Hua-bing JIANG Zhou-hua SHEN Ming-hui YOU Xiang-mi.High Nitrogen Austenitic Stainless Steels Manufactured by Nitrogen Gas Alloying and Adding Nitrided Ferroalloys[J].Journal of Iron and Steel Research International,2007,14(3):63-68. 被引量：15
9张述林,李敏娇,王晓波,陈世波.18-8奥氏体不锈钢的晶间腐蚀[J].中国腐蚀与防护学报,2007,27(2):124-128. 被引量：90
10郭富强,程世长,刘正东,包汉生,张代明.碳、铌对ASME S30432奥氏体耐热钢晶间腐蚀性能的影响[J].机械工程材料,2007,31(8):11-14. 被引量：21

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2Zhou-hua Jiang Zu-rui Zhang Hua-bing Li Zhen Li Qi-feng Ma.Microstructural evolution and mechanical properties of aging high nitrogen austenitic stainless steels[J].International Journal of Minerals,Metallurgy and Materials,2010,17(6):729-736. 被引量：2
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4Hua-bing Li,Zhou-hua Jiang,Hao Feng,Hong-chun Zhu,Bin-han Sun,Zhen Li.Corrosion behavior of ferritic stainless steel with 15wt% chromium for the automobile exhaust system[J].International Journal of Minerals,Metallurgy and Materials,2013,20(9):850-860. 被引量：4
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2Yuan-qing Wang,Hui ghold,Yong-jiu Shi,Bao-rui Feng.Mechanical properties and fracture toughness of rail steels and thermite welds at low temperature[J].International Journal of Minerals,Metallurgy and Materials,2012,19(5):409-420. 被引量：7
3张春雷,任延杰,柯金云,葛剑.Super304H奥氏体不锈钢的晶间腐蚀性能[J].长沙理工大学学报（自然科学版）,2013,10(3):85-89. 被引量：2
4Yang Li,Ji-peng Han,Zhou-hua Jiang,Pan He.Effect of tin addition on the microstructure and properties of ferritic stainless steel[J].International Journal of Minerals,Metallurgy and Materials,2015,22(1):37-44. 被引量：5
5张春雷,陈亚庆.Super304H焊接接头晶间腐蚀性能的电化学动电位再活化法评价[J].广东电力,2015,28(3):1-4. 被引量：2
6张凯.06Cr19Ni10奥氏体不锈钢晶间腐蚀的解析[J].内江师范学院学报,2015,30(4):18-20. 被引量：5
7Hai-long Qin,Hua Zhang,Da-tong Sun,Qian-yu Zhuang.Corrosion behavior of the friction-stir-welded joints of 2A14-T6 aluminum alloy[J].International Journal of Minerals,Metallurgy and Materials,2015,22(6):627-638. 被引量：13
8陈雨来,房菲,李静媛,王一德.C含量对高氮奥氏体不锈钢18Mn18CrN析出行为的影响[J].材料热处理学报,2015,36(9):94-102. 被引量：6
9吴浩,徐桂芳,严羽,程晓农,李冬升,吴晓东.新型高氮低镍奥氏体不锈钢的点蚀性能[J].金属热处理,2015,40(12):11-16. 被引量：16
10Ying-hui Zhou,Chen-xi Liu,Yong-chang Liu,Qian-ying Guo,Hui-jun Li.Coarsening behavior of MX carbonitrides in type 347H heat-resistant austenitic steel during thermal aging[J].International Journal of Minerals,Metallurgy and Materials,2016,23(3):283-293. 被引量：4

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2顾帅帅,钟庆东,蒋继波,纪丹,勒霞文,牟童.304不锈钢在RCC-M 1310标准下的耐蚀性[J].腐蚀与防护,2015,36(5):480-483. 被引量：3
3郭丽芳,李旭晏,孙涛,徐菊良,李劲,蒋益明.敏化温度对SAF2304双相不锈钢耐局部腐蚀性能的影响[J].金属学报,2012,48(12):1503-1509. 被引量：10
4王宏虎.Q345R+00Cr17Ni14Mo2复合板的焊接和热处理的质量控制[J].现代焊接,2012(6):39-39.
5LI Hua-bing JIANG Zhou-hua ZHANG Zu-rui YANG Yan.Effect of Grain Size on Mechanical Properties of Nickel-Free High Nitrogen Austenitic Stainless Steel[J].Journal of Iron and Steel Research International,2009,16(1):58-61. 被引量：14
6缪继尧.铍青铜废隔板的复活时效热处理[J].桂林航天工业学院学报,1996,0(Z2):35-37.
7“钢系列”商品满血复活螺纹钢创3年新高[J].武钢技术,2017,55(2):4-4.
8张春雷,熊夏华,郑志军,高岩.稳定化处理对Super304H奥氏体耐热钢晶间腐蚀敏感性的影响[J].材料研究学报,2013,27(4):411-418. 被引量：12
9Hua-bing Li Zhou-hua Jiang Yan Yang Yang Cao Zu-rui Zhang.Pitting corrosion and crevice corrosion behaviors of high nitrogen austenitic stainless steels[J].International Journal of Minerals,Metallurgy and Materials,2009,16(5):517-524. 被引量：16
10邓建德,冯志猛,王健.奥氏体不锈钢及其复合板热加工及敏化温度探讨[J].中国化工装备,2002,4(1):20-23. 被引量：4

International Journal of Minerals,Metallurgy and Materials

2009年第6期

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