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金属学报  2012, Vol. 48 Issue (9): 1089-1096    DOI: 10.3724/SP.J.1037.2012.00178
  论文 本期目录 | 过刊浏览 |
抗菌时效处理对含Cu双相不锈钢组织和性能的影响 II. 耐蚀及抗菌性能
向红亮, 范金春, 刘东, 顾兴
福州大学机械工程及自动化学院, 福州 350108
EFFECTS OF ANTIBACTERIAL AGING TREATMENT ON MICROSTRUCTURE AND PROPERTIES OF COPPER-CONTAINING DUPLEX STAINLESS STEEL
II. Corrosion Resistance and Antibacterial Properties
XIANG Hongliang, FAN Jinchun, LIU Dong, GU Xing
School of Mechanical Engineering and Automation, Fuzhou University, Fuzhou 350108
引用本文:

向红亮 范金春 刘东 顾兴. 抗菌时效处理对含Cu双相不锈钢组织和性能的影响 II. 耐蚀及抗菌性能[J]. 金属学报, 2012, 48(9): 1089-1096.
, , , . EFFECTS OF ANTIBACTERIAL AGING TREATMENT ON MICROSTRUCTURE AND PROPERTIES OF COPPER-CONTAINING DUPLEX STAINLESS STEEL
II. Corrosion Resistance and Antibacterial Properties[J]. Acta Metall Sin, 2012, 48(9): 1089-1096.

全文: PDF(3030 KB)  
摘要: 采用电化学方法分析了经抗菌时效处理后的含Cu双相不锈钢耐腐蚀性能, 同时采用覆膜法测试了其广谱抗菌效果. 极化曲线测试结果表明, 材料表面存在的ε-Cu等富Cu相成为钝化膜中的薄弱点, 粗大富Cu相的时效析出位置易成为点蚀形核源, 析出粗大富Cu相所占比例增加使得材料耐点蚀性能减弱; 阻抗谱测试显示钝化膜中存在的ε-Cu等富Cu相会降低整体电位及钝化膜电阻, 使钝化膜稳定性下降; DL-EPR测试表明, 在相界及晶间析出的ε-Cu等富Cu相会使晶间呈现阳极性, 导致晶间发生选择性腐蚀, 因富Cu相主要在铁素体上析出, 与奥氏体相比, 其耐晶间腐蚀性能下降严重. 抗菌检测表明, 富Cu相的相结构和体积分数是影响材料抗菌性能的关键因素, ε-Cu的抗菌效果最好, 亚稳态富Cu相次之, 固溶Cu最差. ε-Cu相数量越多, 抗菌效果越好.
关键词 抗菌时效处理温度含Cu双相不锈钢腐蚀性能抗菌性能富Cu相    
Abstract:Effects of antibacterial aging treatment on the corrosion resistance of copper-bearing duplex stainless steels were investigated by electrochemical methods. The film-cover method was used to test the antibacterial effect of the materials. The polarization curve test results show ε-Cu and other copper-rich phases become the weak point of the passive film on the surface of the duplex stainless steel, and the sites where the coarse copper-rich phases are precipitated from the matrix are apt to become pitting nucleation source. The proportion of coarse copper-rich phase increases, which makes pitting resistance of the materials worse. EIS test reveals that the presence of ε-Cu and other copper-rich phases in passive film reduces the overall potential and passive film resistance, decreasing the stability of passive film. D-EPR tests show that ε-Cu and other copper-rich phases in grain boundary makes it take on anode characteristic in corrosion process, leading to selectively intergranular corrosion. Compared with austenite, the intergranular corrosion resistance of ferrite decreases seriously because the copper-rich phases are mainly precipitated from ferrite matrix. Antibacterial tests show that the microstructure and volume fraction of copper-rich phases are the key factors affecting the antibacterial properties of the materials. ε-Cu displays the best antibacterial effect, followed by metastable copper-rich phase, solid solution copper is the worst. The more ε-Cu phases are, the more antibacterial effect is.
Key wordsantibacterial treatment temperature    copper-containing duplex stainless steel    corrosion resistance    antibacterial property    copper-rich phase
收稿日期: 2012-04-06     
基金资助:

福建省高等学校新世纪优秀人才支持计划资助项目JA10014

作者简介: 向红亮, 男, 1972年生, 副教授, 博士
[1] Suzuki S, Nakamura S, Ookubo N, Hasegawa M, Miyakuso K. CAMP–ISIJ, 1999; 12: 518

[2] Chen S H, L¨u M Q, Zhang J D, Dong J S, Yang K. Acta Metall Sin, 2004; 40: 314

(陈四红, 吕曼祺, 张敬党, 董加胜, 杨 柯. 金属学报, 2004; 40: 314)

[3] Nan L, Liu Y Q, Yang W C, Xu H, Li Y, Lu M Q, Yang K. Acta Metall Sin, 2007; 43: 1065

(南黎, 刘永前, 杨伟超, 徐慧, 李瑛, 吕曼祺, 杨 柯. 金属学报, 2007; 43: 1065)

[4] Zhang Z X, Lin G, Xu Z. J Mater Process Technol, 2008; 205: 419

[5] Nan L, Yang K. J Mater Sci Technol, 2010; 26: 941

[6] Yang K, Dong J S, Chen S H, L¨u M Q. Chin J Mater Res, 2006; 20: 523

(杨 柯, 董加胜, 陈四红, 吕曼棋. 材料研究学报, 2006; 20: 523)

[7] Nan L, Yang W C, Liu Y Q, Xu H, Li Y, L¨u M Q, Yang K. J Mater Sci Technol, 2008; 24: 197

[8] Hong I T, Koo C H. Mater Sci Eng, 2005; A393: 213

[9] Wang X L, Zhao R D, Zhang W Q, Zhu H F. Spec Steel, 2006; 27(5): 35

(王小丽, 赵荣达, 张伟强, 朱宏飞. 特殊钢, 2006; 27(5): 35)

[10] Xiang H L, Fan J C, Liu D, Guo P P. Acta Metall Sin, 2012; 48: 1081

(向红亮, 范金春, 刘东, 郭培培. 金属学报, 2012; 48: 1081)

[11] Gong J, Jiang Y M, Deng B, Xu J L, Hu J P, Li J. Electroc Acta, 2010; 55: 5077

[12] Yang K, Lu M Q. J Mater Sci Technol, 2007; 23: 333

[13] Fu Y, Lin C J, Cai W D. Acta Metall Sin, 2005; 41: 302

(付 燕, 林昌健, 蔡文达. 金属学报, 2005; 41: 302)

[14] Jinil S, Sangshik K, Jehyun L, Byunghak C. Metall Mater Trans, 2003; 34A: 1617

[15] Sourisseau T, Chauveau E, Baroux B. Corros Sci, 2005; 47: 1097

[16] Banas J, Mazurkiewicz A. Mater Sci Eng, 2000; A277: 183

[17] Wei B M. The Theory of Metal Corrosion and Application. Beijing: Chemical Industry Press, 1984: 37

(魏宝明. 金属腐蚀理论及应用. 北京: 化学工业出版, 1984: 37)

[18] Trethewey K R, Paton M. Mater Lett, 2004; 58: 3381

[19] Lo I H, Fu Y, Lin C J, Tsai W T. Corros Sci, 2006; 48: 696

[20] Xiao J M. The Metallurgical Problems of Stainless Steels. Beijing: Metallurgy Industry Press, 2006: 164

(肖纪美. 不锈钢的金属学问题. 北京: 冶金工业出版社, 2006: 164)

[21] Zhang Z X, Lin G, Jiang L Z, Xu Z. Mater Chem Phys, 2008; 111: 238

[22] Ren H P, Liu Z C, An Z G, Wang H Y. Trans Mater Heat Treat, 2006; 27(4): 49

(任慧平, 刘宗昌, 安治国, 王海燕. 材料热处理学报, 2006; 27(4): 49)

[23] Ren H, Mao W. J Univ Sci Technol Beijing, 2002; 9(3): 185
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