MACKOWIAK J,SHORT N R.Metallurgy of galvanizing coatings[J].Inter Mater Review,1979,(1):1-19.
[2]
MARDER A R.The metallurgy of zinc-coated steel[J].Prog Mater Sci,2000,45:191-271.
[3]
YOSHITAKA A,MASAHIRO A.Transformation of Fe-Al phase to Fe-Zn phase on pure iron during galvanizing[J].Mater Sci Eng,1998,A254:305-310.
[4]
CHIDAMBARAM P R,RANGARAJAN V,VAN OOIJ W J.Characterization of high temperature hot dip galvanized coatings[J].Surf Coat Tech,1991,46:245-253.
[5]
VERMA A R B,VAN OOIJ W J.High-temperature batch hotdip galvanizing.part1.general description of coatings formed at 560℃[J].Surf Coat Tech,1997,89:132-142.
[6]
VERMA A R B,VAN OOIJ W J.High-temperature batch hotdip galvanizing.part2.comparison of coatings formed in the temperature range 520~555℃[J].Surf Coat Tech,1997,89:143-150.
[7]
REUMONT G,PERROT P,FOCT J.Thermodynamic study of the galvanizing progress in a Zn-0.1% Ni bath[J].J Mater Sci,1998,33:4759-4768.
[8]
FOCT J,PERROT P,REUMONT G.Interpretation of the role of silicon on the galvanizing reaction based on kinetics,morphology and thermodynamics[J].Scripta Metall Mater,1993,28:1195-1200.
[9]
CHEN Z W,KENNON N F,SEE K B.Technigalva and other developments in batch hot-dip galvanizing[J].JOM,1992,44(1):22-27.
[10]
KREPSKI R P.Nickel-based pretreatments to solve the silicon steel galvanizing problem[A].Proc 15th Inter Galva Conf[C].Rome:EGGA,1988.1-4.
[11]
SCHULZ W D,SCHUBERT P,THIELE M.An alternative approach to explaining the effect on the galvanizing reaction[A].Proc 20th Inter Galva Conf[C].Amsterdam:EGGA,2003.61-64.
