合金化热镀锌钢板抗粉化性能的研究进展
A REVIEW ON THE RESEARCH OF POWDERING-RESISTANCE OF GALVANNEALED STEEL SHEETS
摘 要
综述了合金化热镀锌钢板抗粉化性能的研究进展,重点论述了镀层相结构的形成机理和镀层相结构对镀层抗粉化性能的影响,同时介绍了镀层抗粉化性能的其它影响因素.
热镀锌钢板
相结构
粉化
Alloying
Galvannealed steel sheet
Phase structure
Powdering-resistance
Abstract
The research progress of powdering-resistance of galvannealed steel sheets is summarized.The microstructure forming principles of galvannealed coatings,and the relationship between phase structure and powdering-resistance of the coat are emphasized.The effects of other factors are also introduced.
中图分类号 TG174.44 TB331
所属栏目 专论
基金项目
收稿日期 2006/9/14
修改稿日期 2006/10/12
网络出版日期
作者单位点击查看
引用该论文: CHENG Dong-mei,HAO Xiao-dong,YU Gang-qiang. A REVIEW ON THE RESEARCH OF POWDERING-RESISTANCE OF GALVANNEALED STEEL SHEETS[J]. Corrosion & Protection, 2007, 28(2): 82~85
被引情况:
【1】郝晓东,张启富, "铁含量对高强度IF钢合金化镀层的抗粉化性能和耐腐蚀性能的影响",腐蚀与防护 29, 736-737(2008)
共有人对该论文发表了看法,其中:
人认为该论文很差
人认为该论文较差
人认为该论文一般
人认为该论文较好
人认为该论文很好
参考文献
【1】拉什尼科夫В.Ф.(俄).用连续热镀锌设备生产铁锌镀层薄钢板工艺的开发[J].先越蓉,译.世界钢铁,2004(3):59-60.
【2】Guttmann M,Lepretre Y,Aubry A.Mechanisms of the galvanizing reaction.Influence of Ti and P Contents in Steel and of Its Surface Microstructure After Annealing[C]//The Iron and Steel Society.In: Hartmann J E.The Use and Manufacture of Zinc and Zinc Alloy Coated Sheet Steel Products into 21st Century.Chicago:s.n.,1995:295-307.
【3】Jean-Michel Motaigne.汽车用合金化热镀锌钢板的最佳镀层微观结构[J].袁明生,译.世界钢铁,2001(6):19-23.
【4】张启富,刘邦津.IF钢合金化镀锌板镀层相结构对其性能影响研究的新进展[J].钢铁,2002,37(12):65-68,78.
【5】郝晓东,程东妹,张启富.超轻汽车车体用钢热镀锌的研究及应用现状[J].中国冶金,2006,16(12):5-8.
【6】张理扬,李俊,左良.合金化热镀锌高强IF钢镀层分析[J].东北大学学报(自然科学版),2005,26(3):232-235.
【7】Jordan C E,Goggins K M,Marder A R.Interfacial layer development in hot-dip galvanneal coatings on Interstitial Free (IF) steel[J].Metall & Mater Trans,1994,25A(10):2101-2109.
【8】庞华,陈秀芳,赵秉军.含Ti的合金化热镀锌钢板的镀层结构及相变规律的研究[J].金属热处理学报,1997,18(1):55-59.
【9】Nakamori T,Shibuya A.Effects of galvannnealing conditions and coating weight on powdering resistance of galvannealed steel sheet[C]//Corrosion-Resistant Automotive Sheet Steels.Chicago:s.n.,1988:139-149.
【10】Hisamatsu Y.Science and technology of zinc and zinc alloy coated steel sheet[C]//GALVATECH’89.Tokyo Japan: ISIJ,1989:3-12.
【11】Urai M,Terada M,Yamaguchi M,et al.Effect of aluminium on powdering characteristics of galvannealed steel sheet[C]//GALVATECH’89.Tokyo Japan: ISIJ,1989:478-484.
【12】Sakurai M,Zhang L W,Tajiri Y,et al.Effect of coating structure on powdering resistance of galvannealed steel sheet[J].Tetsu-to-Hagane,1991,77(7):978-986.
【13】Shi M S,Smith G M,Moore M,et al.Zinc based steel coating systems[C]//Metallurgy and Performance: The TMS Annual Meeting.Detroit Mich:s.n.,1990:387-390.
【14】Lin C S,Meshii M.Effect of steel chemistry on the microstructure and mechnaical properties of the commercial galvanneal coatings[C]//GALVATECH’95.Chicago Illinois:s.n.,1995:477-484.
【15】ALPAS A T,Inagaki J.Effect of microstructure on fracture mechanisms in galvannealed coatings[J].ISIJ International,2000,40(2):172-181.
【16】Lin C S,Mishii M.Effect of steel chemistry on the formation of the alloy layers on the commercial hot-dip coatings[C]//GALVATECH.Chicago Illinvois:s.n.,1995:335-342.
【17】张启富.现代钢带连续热镀锌[M].北京: 冶金工业出版社,2006.
【18】Nishimoto A,Inagaki J,Nakaoka K.Microtexture,grain boundary character distribution and secondary working embrittlement of high strength IF steels[J].Trans Iron Steel Inst Jpn,1986,26:807-818.
【19】Moon M B,Shin C S,Namkoong H W Oh and S.Effect of P content and texture of substrate on galvannealing behavior of hot dip galvannealed steel sheets[C]//GALVATECH’04.Chicago: s.n.,2004:475-480.
【20】Tang N Y.Characteristics of contimuous galvanizing baths[J].Metallurgical and Materials Transactions B,1999,30(B):144-148.
【21】(日)土歧保.钢中Si对合金化热镀锌钢板镀层界面结合强度的影响[J].高宏适,译.世界钢铁,2003(5):26-31.
【22】S.Feliu Jr.,Pérez-Revenga M L.Effect of alloying elements (Ti,Nb,Mn and P) and the water vapour content in the annealing atmosphere on the surface compositon of interstitial-free steels at the galvanizing temperature[J].Applied Surface Science,2004(229):112-123.
【23】S.Feliu Jr.,Pérez-Revenga M L.Correlation between the surface chemistry of annealed IF steels and the growth of a galvanneal coating[J].Acta Materialia,2005(53):2857-2866.
【24】Borzillo A R,Hahn W C.Growth of the inhibition aluminum-rich alloy layer on mild steel during galvanizing in zinc that contains aluminum[J].Trans ASM,1969,62:729-739.
【25】Ghuman A R P,Goldsein J I.Reaction mechanism for the coatings formed during the hot-dipping of iron in 0 to 10 pct Al-Zn baths at 450 to 700 ℃[J].Metall Trans,1971(2):2903-2914.
【26】Morimoto Y,Medevitt E,Meshii M.Characterization of the Fe-Al inhibition layer formed in the initial stages of hot –dip galvannealing[J].ISIJ International,1997,37(9):906-913.
【2】Guttmann M,Lepretre Y,Aubry A.Mechanisms of the galvanizing reaction.Influence of Ti and P Contents in Steel and of Its Surface Microstructure After Annealing[C]//The Iron and Steel Society.In: Hartmann J E.The Use and Manufacture of Zinc and Zinc Alloy Coated Sheet Steel Products into 21st Century.Chicago:s.n.,1995:295-307.
【3】Jean-Michel Motaigne.汽车用合金化热镀锌钢板的最佳镀层微观结构[J].袁明生,译.世界钢铁,2001(6):19-23.
【4】张启富,刘邦津.IF钢合金化镀锌板镀层相结构对其性能影响研究的新进展[J].钢铁,2002,37(12):65-68,78.
【5】郝晓东,程东妹,张启富.超轻汽车车体用钢热镀锌的研究及应用现状[J].中国冶金,2006,16(12):5-8.
【6】张理扬,李俊,左良.合金化热镀锌高强IF钢镀层分析[J].东北大学学报(自然科学版),2005,26(3):232-235.
【7】Jordan C E,Goggins K M,Marder A R.Interfacial layer development in hot-dip galvanneal coatings on Interstitial Free (IF) steel[J].Metall & Mater Trans,1994,25A(10):2101-2109.
【8】庞华,陈秀芳,赵秉军.含Ti的合金化热镀锌钢板的镀层结构及相变规律的研究[J].金属热处理学报,1997,18(1):55-59.
【9】Nakamori T,Shibuya A.Effects of galvannnealing conditions and coating weight on powdering resistance of galvannealed steel sheet[C]//Corrosion-Resistant Automotive Sheet Steels.Chicago:s.n.,1988:139-149.
【10】Hisamatsu Y.Science and technology of zinc and zinc alloy coated steel sheet[C]//GALVATECH’89.Tokyo Japan: ISIJ,1989:3-12.
【11】Urai M,Terada M,Yamaguchi M,et al.Effect of aluminium on powdering characteristics of galvannealed steel sheet[C]//GALVATECH’89.Tokyo Japan: ISIJ,1989:478-484.
【12】Sakurai M,Zhang L W,Tajiri Y,et al.Effect of coating structure on powdering resistance of galvannealed steel sheet[J].Tetsu-to-Hagane,1991,77(7):978-986.
【13】Shi M S,Smith G M,Moore M,et al.Zinc based steel coating systems[C]//Metallurgy and Performance: The TMS Annual Meeting.Detroit Mich:s.n.,1990:387-390.
【14】Lin C S,Meshii M.Effect of steel chemistry on the microstructure and mechnaical properties of the commercial galvanneal coatings[C]//GALVATECH’95.Chicago Illinois:s.n.,1995:477-484.
【15】ALPAS A T,Inagaki J.Effect of microstructure on fracture mechanisms in galvannealed coatings[J].ISIJ International,2000,40(2):172-181.
【16】Lin C S,Mishii M.Effect of steel chemistry on the formation of the alloy layers on the commercial hot-dip coatings[C]//GALVATECH.Chicago Illinvois:s.n.,1995:335-342.
【17】张启富.现代钢带连续热镀锌[M].北京: 冶金工业出版社,2006.
【18】Nishimoto A,Inagaki J,Nakaoka K.Microtexture,grain boundary character distribution and secondary working embrittlement of high strength IF steels[J].Trans Iron Steel Inst Jpn,1986,26:807-818.
【19】Moon M B,Shin C S,Namkoong H W Oh and S.Effect of P content and texture of substrate on galvannealing behavior of hot dip galvannealed steel sheets[C]//GALVATECH’04.Chicago: s.n.,2004:475-480.
【20】Tang N Y.Characteristics of contimuous galvanizing baths[J].Metallurgical and Materials Transactions B,1999,30(B):144-148.
【21】(日)土歧保.钢中Si对合金化热镀锌钢板镀层界面结合强度的影响[J].高宏适,译.世界钢铁,2003(5):26-31.
【22】S.Feliu Jr.,Pérez-Revenga M L.Effect of alloying elements (Ti,Nb,Mn and P) and the water vapour content in the annealing atmosphere on the surface compositon of interstitial-free steels at the galvanizing temperature[J].Applied Surface Science,2004(229):112-123.
【23】S.Feliu Jr.,Pérez-Revenga M L.Correlation between the surface chemistry of annealed IF steels and the growth of a galvanneal coating[J].Acta Materialia,2005(53):2857-2866.
【24】Borzillo A R,Hahn W C.Growth of the inhibition aluminum-rich alloy layer on mild steel during galvanizing in zinc that contains aluminum[J].Trans ASM,1969,62:729-739.
【25】Ghuman A R P,Goldsein J I.Reaction mechanism for the coatings formed during the hot-dipping of iron in 0 to 10 pct Al-Zn baths at 450 to 700 ℃[J].Metall Trans,1971(2):2903-2914.
【26】Morimoto Y,Medevitt E,Meshii M.Characterization of the Fe-Al inhibition layer formed in the initial stages of hot –dip galvannealing[J].ISIJ International,1997,37(9):906-913.
相关信息
