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17-4PH不锈钢的抗菌性能 被引量:7

Antibacterial Performance of 17-4PH Stainless Steel
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摘要 研究了热处理工艺对17-4PH不锈钢抗菌性能的影响。结果表明,冷处理并在482℃时效能有效提高17-4PH不锈钢的抗菌性能和硬度,提高时效温度使17-4PH不锈钢的杀菌率增加,但是其硬度明显降低;时效时间增加,杀菌率提高,但是硬度略有降低。冷处理促进马氏体分解,位错密度增大,从而促进了富Cu相的析出。17-4PH不锈钢最优的抗菌热处理工艺制度为:1040℃固溶处理/0.5 h+液氮冷处理/0.5 h+482℃时效处理/6 h。 The antibacterial performance of 17-4PH stainless steel by different heat treatments was investigated. The results show that aging at 482℃ after cryogenic treatment at liquid nitrogen can effec- tively improve the antibacterial rate and hardness of 17-4PH steel, and the antibacterial rate increased with the increase of both aging temperature and aging time, but the hardness declined. The cryogenic treatment can promote the decomposition of the martensite, and then the dislocation density in 17-4PH steel become larger, which could increase the Cu-rich precipitations in the steel matrix and improve the antibacterial performance of the steel. An optimal antibacterial heat treatment procedure for 17-4 PH steel is recommended as solution treatment at 1040℃/0.5 h+cryogenic treatment/0.5h+aging at 482℃/6 h.
作者 王帅 卢志江 杨春光 沈明钢 杨柯
机构地区 辽宁科技大学材料与冶金学院 中国科学院金属研究所 南京理工大学材料科学与工程学院
出处 《材料研究学报》 EI CAS CSCD 北大核心 2014年第1期15-22,共8页 Chinese Journal of Materials Research
基金 国家九七三计划2012CB619101 国家自然科学基金51371168资助项目~~
关键词 金属材料 17-4PH钢 抗菌性能 富铜相 冷处理 硬度 metallic materials, 17-4PH steel, antibacterial performance, Cu-rich precipitation, cryo- genic treatment, hardness
分类号 TG142 [金属学及工艺—金属材料]
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参考文献13

  • 1NF S94-090-2005, Medico-surgical Equipment-materials for Ancillary Positioning Instruments for Surgical Instrument - Martensitic, Precipitation Hardening, Austenitic and Austeno- ferritic Stainless Steels, 2005.
  • 2杨春光,王帅,任玲,南黎,卢志江,杨柯.一种外科手术用沉淀硬化马氏体不锈钢及其热处理工艺,中国专利,201210551878.5.
  • 3F. Heidenau, W Mittelmeier, R. Detsch, M. Haenle, F. Stenzel, G. Ziegler, H. Gollwitzer, Anovel antibacterial titania coating: Metal ion toxicity and in vitro surface colomization, Journal of Materials Science: Materials in Medicine, 16, 883(2005).
  • 4L. Ren, L. Nan, K. Yang, Study of copper precipitation behavior in a Cu- bearing austenitic antibacterial stainless steel, Materials and Design, 32, 2374 (2011?.
  • 5L. Nan, W C. Yang, Y Q. Liu, H. Xu, Y Li, M. Q. Lv, K. Yang, Antibacterial mechanism of copper-bearing antibacterial stainless steel against E. Coli, Journal of Materials Science & Technology, 24(2), 197(2008).
  • 6刘永前.马氏体抗菌不锈钢的研究,博士学位论文,中国科学院金属研究所(2008).
  • 7H. Mirzadeh, A Najafizadeh, Aging kinetics of 17-4 PH stainless steel, Materials Chemistry and Physics, 116, 119 (2009).
  • 8C. N. Hsiao, C. S. Chiou, J. R. Yang, Aging reactions in a 17-4 PH stainless steel, Materials Chemistry and Physics, 74, 132(2002).
  • 9波特,伊斯特林,谢里夫著,陈冷,余永宁译.金属和合金中的相变(北京,高等教育出版社,2011)p.226.
  • 10S. S. Gill, J. Singh, R. Singh, H. Singh, Metallurgical principles of cryogenically treated tool steels-a review on the current state of science, International Journal of Advanced Manufacturing Technology, 54, 59(2011).

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材料研究学报
2014年 第1期

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