综述了含硅钢材表面状态因素对热浸镀锌反应活性的影响,这些因素包括亚表面氧化、表面粗糙度、表面残余应力、表面晶粒位向及表面组织结构等.结果表明,对于热轧状态的含硅钢材,亚表面氧化和表面粗糙度对热浸镀锌有明显的影响.对于其它因素的影响,目前尚无统一看法.
参考文献
| [1] | Chen Z W;Kennon N F;See J B.Technigalva and other developments in batch hot-dip galvanizing[J].Journal of Metals,1992(01):22. |
| [2] | Lynch R F.Hot-dip galvanizing alloys[J].Journal of Metals,1987(08):39. |
| [3] | Kozdras M S;Niessen P.Silicon-induced destabilization of galvanized coatings in the Sandelin peak region[J].Metallograghy,1989(22):253. |
| [4] | Marder AR. .The metallurgy of zinc-coated steel [Review][J].Progress in materials science,2000(3):191-271. |
| [5] | Foct J;Reumont G;Dauphin J Y.The role of nickel on the galvanizing reaction[A].ISIJ,Tokyo,1989:443. |
| [6] | Lichti K A;Niessen P .Effect of silicon on the reactions between iron and ζ (FeZn13)[J].Zeitschrift fur Metallkunde,1987,78(01):58. |
| [7] | Foct J;Perrot P;Reumont G .Interpretation of the role of silicon on the galvanizing reaction based on kinetics,morphology ang thermodynamics[J].Scripta Metallurgica et Materialia,1993,28:1195. |
| [8] | Richards R W;Clarke H;Goodwin F E.The influence of steel surface characteristics on galvanizing reactivity[A].Paris,1994:GC7/1. |
| [9] | Nishimura K;Yamada T;Kisnida K.Effect of steel surface pretreament on the hot dip galvanizing reaction[A].Paris,1994:SE6/1. |
| [10] | Jordan C E;Marder A R .The effect of iron oxide as an inhibition layer on iron-zinc reactions during hot-dip galvanizing[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,1998,29B(04):479. |
| [11] | Shibli S M A;Manu R .Improvement of hot-dip zinc coating by enriching the inner layers with iron oxide[J].Applied Surface Science,2006,252:3058. |
| [12] | Hansel G .Beitrag zur feueverzinkung von aluminiumberuhigten unlegierten stahlen[J].Metallograghy,1983,37:883. |
| [13] | Horstmann D.[A].Munich,1985:6/1. |
| [14] | Ruddle G E;Sebisty J J;Packwood R H.[A].St Louis,1975 |
| [15] | Nó M.Orientation of the steel surface crystals in relation to the sandelin effect[A].Paris,1994:GC9/1. |
| [16] | Krepski R P;Lauqhlin D E .Role of interface energies in galvanized coating development[J].THIN SOLID FILMS,1980,72(02):229. |
| [17] | Hisamatsu Y.[A].ISIJ,Tokyo,1989:3. |
| [18] | C.E.Jordan .Effect of Substrate Grain Size on Iron-Zinc Reaction Kinetics during Hot-Dip Galvanizing[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,1997(12):2683-2694. |
| [19] | 若松良德;上本和雄;山根政博 等.シリュン含有鋼と亜鉛融液との反応に及ほす無電解ニツケルめつきの影響[J].铁と钢(日本),1999,85(09):46. |
| [20] | Krepski R P.Nickel-based pretreatmants to solve the silicon steel galvanizing problem[A].Rome,1988:GE4/1. |
| [21] | Tang NY.;Toguri JM.;Su XP. .Experimental study and thermodynamic assessment of the Zn-Fe-Ni system[J].Calphad: Computer Coupling of Phase Diagrams and Thermochemistry,2001(2):267-277. |
| [22] | Reumont G.;Foct J.;Perrot P. .Thermodynamic study of the galvanizing process in a Zn-0.1%Ni bath[J].Journal of Materials Science,1998(19):4759-4768. |
| [23] | Shibli SMA;Manu R;Dilimon VS .Effect of nickel-rich barrier layer on improvement of hot-dip zinc coating[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2005(1/4):179-185. |
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