材料研究学报  2001, Vol. 15 Issue (5): 505-509

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CrMnN不锈钢的抗空蚀和磨蚀性能

柳伟;郑玉贵;姚治铭;柯伟

中国科学院金属研究所金属腐蚀与防护国家重点实验室

柳伟; 郑玉贵; 姚治铭; 柯伟 . CrMnN不锈钢的抗空蚀和磨蚀性能[J]. 材料研究学报, 2001, 15(5): 505-509.

摘要 参考文献 相关文章 Metrics 全文: PDF(779 KB)   摘要: 利用旋转圆盘仪对CrMnN不锈钢、20SiMn低合金钢和0Cr13Ni5Mo不锈钢进行了模拟实际工况条件下的空蚀和磨蚀(空蚀和冲刷磨损联合作用)实验.用失重法评价了三种金属材料的抗空蚀和磨蚀性能,并用扫描电镜观察了空蚀形貌. 结果表明,CrMnN不锈钢不仅比目前水轮机转轮用材具有更高的抗空蚀性能,而且也具有很好的抗磨蚀性能. 深入研究了CrMnN不锈钢的抗损伤机理. 关键词 ： CrMnN不锈钢,  空蚀,  磨蚀,  水轮机      Key words： 收稿日期: 1900-01-01      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 柳伟 郑玉贵 姚治铭 柯伟 44.8K 链接本文: https://www.cjmr.org/CN/Y2001/V15/I5/505 1 Norsk Hydro Oslo,Electrolyte cell active cathode with low overvoltage,Nederlands Patent No.7801955,1978 2 F.Hine,M.Yasuda,M.Watanabe,Studies of the nickel- sulfur electrodeposited cathode,Denki Kagaku,47, 401(1979) 3 E.R.Gonsalez,L.A.Avaca,G.Tremiliosi-Filho,Hydrogen evolution reaction on Ni-S electrodes in alkaline solutions, Int.J.Hydrogen Energy,19,17(1994) 4 T.C.Wen,S.M.Lin,J.M.Tsai,Sulfur content and the hy- drogen evolution activity of NiSx deposits using statistical experimental strategies,Journal of Applied Electrochem- istry,24,233(1994) 5 T.Valand,T.Burchardt,T.Grontoft,Structure and cat- alytic behavior of NiS_x films with respect to the hydrogen evolution,Int.J.Hydrogen Energy,27,39(2002) 6 DU Min,GAO Rongjie,The mechanism of hydrogen evo- lution reaction of amorphous Ni-S alloy coating,Journal of Ocean University of Qingdao,33,961(2003) (杜敏，高荣杰，非晶态Ni-S合金在碱液中析氢反应(HER)机理的研究，青岛海洋大学学报，33，961(2003)) 7 LIU Fang,HE Hanwei,ZHOU Kechao,YUAN Tiechui, LIU Hongjiang,LI Jun,Dependences of sulfur content during electro-deposition of Ni-S alloy,Materials Science and Engineering of Powder Metallurgy,10,60(2005) (刘芳，何捍卫，周科朝，袁铁锤，刘红江，李军，电沉积Ni-S合金硫含量的影响因素，粉末冶金材料与工程，10，60(2005)) 8 I.A.Raj,Nickel-based,binary-composite electrocatalysts for the cathodes in the energy-efficient industrial produc- tion of hydrogen from alkaline-water electrolytic cells,J. Appl.Electrochem.,28,4375(1993) 9 Q.Han,J.S.Chen,K.R.Liu,X.J.Wei,Electrodeposited Ni- S-Co alloy used as hydrogen evolution reaction cathode in water electrolysis,Acta Metalls Sin (English Letters),15, 405(2002) 10 Q.Han,K.R.Liu,J.S.Chen,X.J.Wei,A study on the elec- trodeposited Ni-S alloys as hydrogen evolution reaction cathodes,Int.J.Hydrogen Energy,28,1207(2003) 11 HU Weikang,ZHANG Yunshi,SONG Deying,Study of amorphous Ni-Mo-Fe alloy used as HER cathode in wa- ter electrolysis,Functional Materials,26,456(1995) (胡伟康，张允什，宋德瑛，非晶态Ni-Mo-Fe合金用作水电解析氢阴极的研究，功能材料，26，456(1995)) 12 I.A.Raj,Nickel-based,binary-composite electrocatalysts for the cathodes in the energy-efficient industrial produc- tion of hydrogen from alkaline-water electrolytic cells,J. Appl.Electrochem.,28,4375(1993) 13 I.Paseka,Evolution of hydrogen and its sorption on re- markable active amorphous smooth Ni-P_((x)) electrodes, Electrochem.Acta,40,1633(1995) 14 J.D.Carvalho,G.Tremiliosi-Filho,L.A.Avaca,Electrode materials and processes for energy conversion and storage, J.Electrochem.Soc.,87,356(1987) 15 B.E.Conway,Theory and Principles of Electrodes Processes (New York,Ronald Press,1965) p.174 16 H.Vandenborre,Ph.Vermeiren,R.Leysen,Hydrogen evo- lution at nickel sulphide cathodes in alkaline medium, Electrochim.Acta,29,297(1984) [1] 吴从前, 任瑞铭, 刘鹏涛, 陈春焕, 赵秀娟. 304不锈钢空化水射流表面空蚀损伤研究[J]. 材料研究学报, 2016, 30(6): 473-480. [2] 徐桂芳 秦敏明 雷玉成 陈希章. Fe--Cr--Ni--Co合金堆焊和重熔层的空蚀性能[J]. 材料研究学报, 2011, 25(1): 61-66. [3] 王再友; 朱金华 . Fe-25Mn-6Si-7Cr形状记忆合金空蚀研究[J]. 材料研究学报, 2003, 17(1): 41-44. [4] 国旭明; 郑玉贵; 姚治铭 . Ni基等离子堆焊合金的空蚀行为[J]. 材料研究学报, 2002, 16(6): 570-574. [5] 柳伟; 郑玉贵; 刘常升; 姚治铭; 柯伟 . 20SiMn低合金钢和0Cr13Ni5Mo不锈钢的多相流损伤行为[J]. 材料研究学报, 2002, 16(6): 583-589. [6] 王者昌; 张毅; 张晓强 . 空蚀过程中的热效应[J]. 材料研究学报, 2001, 15(3): 287-290. [7] 姜晓霞;李诗卓;赵先明;肖耀天. 耐磨耐蚀钢发展途径的探索[J]. 材料研究学报, 1994, 8(4): 304-309. Viewed Full text Abstract Cited   Shared      Discussed