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钢板热镀锌、铝生产线中辊件常受熔融锌、铝液的腐蚀.概述了钢板热镀锌、铝生产线辊件涂层的研究现状,包括涂层材料、涂层结构、涂层工艺及封孔技术,提出了未来辊件耐熔融锌、铝涂层的发展趋势.

Current status of research on coatings of rolling wares in continuous hot- galvanizing and hot- aluminizing production lines of steel sheets was summarized. The coating materials, coating structure, coating technology and pore- sealing technology were ighlighted. Moreover, the development trend of the coatings for protecting rolling wares from cohesion by molten zinc and aluminum was proposed.

参考文献

[1] 张启富;刘邦津;黄建中.现代钢带连续热镀锌[M].北京:冶金工业出版社,2006:380-383.
[2] 佘俊,任先京,于月光,曾克里,马江虹,赵晓东,杨晓彬.镀锌沉没辊表面防腐研究[J].材料导报,2006(z2):429-430,435.
[3] 徐勇 .耐熔融锌、铝腐蚀涂层的研究[D].山东科技大学,2005.
[4] 贺俊光,周旭东,李兴霞.国内外耐熔融锌腐蚀材料研究纵横[J].材料保护,2004(07):33-35.
[5] Yan RD;He JN;Tian BR;Dong YC;Li XZ;Zhang JX;Xiao LS;Jing WN .The corrosion behavior of plasma sprayed Fe2Al5 coating in molten Zn[J].Surface & Coatings Technology,2006(6):2662-2666.
[6] 辛钢;高阳;黑祖昆 .热喷涂铁铝合金涂层耐锌腐蚀机理的研究[D].大连:大连海事大学,2002.
[7] Y. Wang;M. Yan .The effect of CeO{sub}2 on the erosion and abrasive wear of thermal sprayed FeAl intermetallic alloy coatings[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2006(11/12):1201-1207.
[8] 北京科技大学 .一种耐熔锌腐蚀的金属间化合物-Ti-Al-Nb合金[P].中国,200610011237.5,2006-07-19.
[9] WANG Wen-jun,LIN Jun-pin,WANG Yan-li,CHEN Guo-liang.Isothermal corrosion (γ'+γ) Ni3Al alloy in liquid zinc[J].中国有色金属学会会刊(英文版),2006(z2):206-210.
[10] W.J. Wang;J.P. Lin;Y.L. Wang .The corrosion of intermetallic alloys in liquid zinc[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2007(1/2):237-243.
[11] 毛正平,马静,吕和平,王俊,孙宝德,林金平.热喷涂在熔锌腐蚀中的应用及发展[J].材料保护,2008(07):52-54.
[12] 万强茂,王文俊,林均品,王艳丽,叶丰,陈国良.热喷涂技术在锌锅部件中的应用[J].金属热处理,2007(10):79-84.
[13] J. Berget;T. Rogne;E. Bardal .Erosion–corrosion properties of different WC–Co–Cr coatings deposited by the HVOF process—influence of metallic matrix composition and spray powder size distribution[J].Surface & Coatings Technology,2007(18):7619-7625.
[14] 王文俊,林均品,王艳丽,林志,陈国良.316不锈钢/WC-Co涂层在锌液中的腐蚀[J].航空材料学报,2006(04):56-60.
[15] Seong B G;Hwang S Y;Kim K Y.Observation on the WC-Co coating used in a zinc pot of a continuous gaalvanizing line[A].Montreal:[s.n.],2000:1159-1167.
[16] Seong BG.;Kim MC.;Kim KY.;Hwang SY. .Reaction of WC-Co coating with molten zinc in a zinc pot of a continuous galvanizing line[J].Surface & Coatings Technology,2001(1):101-110.
[17] 李益明,谭兴海.宝钢机械厂热喷涂技术及在钢铁企业的应用[C].第六届国际热喷涂研讨会暨第七届全国热喷涂年会论文集,2003:197-202.
[18] 郝荣亮.热喷涂技术及其在中国钢铁行业中的应用[A].北京:中国表面工程协会热喷涂专业委员会,2007:89-98.
[19] 于月光,曾克里,宋希剑,崔颖,魏伟,林峰.我国热喷涂粉末材料的应用与发展现状[J].机械工人(热加工),2005(09):16-18.
[20] 邓世均.高性能陶瓷涂层[M].北京:化学工业出版社,2004:639-640.
[21] JIANG Zhen-Hua,TAN Xing-hai,ZHANG Yue-gang,SUN Jia-shu.Investigation of the Corrosion Behaviors of HVOF-Sprayed Carbide Cernet Coatings in Molten Al-Zn-Si Alloy Bath[J].材料保护,2004(z2):194-198.
[22] Mizuno H;Kitamura J;Osawa S.Development of durable spray coatings in molten aluminum alloy[A].Basel:[s.n.],2005:80-86.
[23] Mizuno H;Aoki I;Tawada S.MoB/CoCr Spray Coating with Higher Durability in Molten Al and Al-Zn Alloys[A].Seattle,Washington:[s.n.],2006
[24] Mizuno H;Tawada S;Aoki I.HVOF Coatings of MoB/COCr against Erosion by Molten Al-Zn Alloy[A].Beijing:[s.n.],2007:567-571.
[25] Lv H P;Wang J;Zhai C S.Durability of HVOF Sprayed MoB/CoCr Coating on the 316L Stainless Substrate in Molten 55%Al-Zn-1.5%Si Bath[A].Beijing:[s.n.],2007:513-517.
[26] Dong YC;Yan DR;He JN;Zhang JX;Li XZ .Degradation behaviour of ZrO2-Ni/Al gradient coatings in molten Zn[J].Surface & Coatings Technology,2006(6):2455-2459.
[27] 叶雄林,马世宁,李长青,邓智昌.超音速等离子喷涂WC/Co纳米结构涂层性能研究[J].中国表面工程,2004(01):31-34,38.
[28] 赵辉,王群,丁彰雄,张云乾.HVOF喷涂纳米结构WC-12Co涂层的组织结构分析[J].表面技术,2007(04):1-3,14.
[29] 上海交通大学 .大颗粒球形金属陶瓷纳米复合喷涂粉体[P].中国,200510030979.8,2006-06-28.
[30] Cell M;Jordan E H;Sohn Y H et al.Development and inplementation of plasma sprayed nanostructured ceramic coatings[J].Surface and Coatings Technology,2001,146/147(08):48-54.
[31] 王全胜,王富耻,吴旭,柳彦博,马壮.等离子喷涂纳米氧化锆涂层韧性研究[J].有色金属(冶炼部分),2006(z1):15-18.
[32] 吴子健;吴朝军;曾克里.热喷涂技术与应用[M].北京:机械工业出版社,2006:25-56.
[33] Harold H,Fukubayashi.Present furnace and pot roll coat ings and future development[A].Osaka:[s.n.],2004:125-131.
[34] Parco M;Barykin G;Fagonga I.Development of wear resistant ceramic coating by HFPD[A].Maastricht:[s.n.],2008:142-146.
[35] 陈琳,张三平,周学杰.热喷涂涂层孔隙率的降低方法[J].四川化工,2004(01):43-45.
[36] 刘美淋,孙宏飞,于惠博,武彬.降低热喷涂涂层孔隙率的方法[J].腐蚀与防护,2007(04):171-173.
[37] 阎瑞,马世宁,吴行.耐高温涂层封孔剂的制备研究[J].中国表面工程,2003(01):13-15,19.
[38] Vippola M.;Ahmaniemi S.;Keranen J.;Vuoristo P.;Lepisto T.;Mantyla T. Olsson E. .Aluminum phosphate sealed alumina coating: Characterization of microstructure[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(1/2):1-8.
[39] Ahmaniemi s;Tuominen J;Vippola M et al.Characteriza tion of modified thick thermal barrier coatings[J].Ther mal Spray Technology,2004,13(03):361-369.
[40] Ahmaniemi S.;Vuoristo P.;Mantyla T. .Improved sealing treatments for thick thermal barrier coatings[J].Surface & Coatings Technology,2002(0):412-417.
[41] 王栋,蔡启舟,骆海贺,魏伯康.热喷涂涂层耐高温SiO2溶胶封孔剂的开发[J].热加工工艺,2006(22):28-29,33.
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