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The effect of ductile cast iron matrix on zinc coating during hot dip galvanising of castings

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The growth kinetics of the zinc coating formed on the surface of casting made from ductile iron grade EN-GJS-500-3 was investigated. To produce homogenous metal matrix in test samples, the normalising and ferritising annealing was carried out. Studies showed a heterogeneous structure of cast iron with varying content of the phases formed. This was followed by hot dip galvanising treatment at 450 C to capture the growth kinetics of the zinc coating (the time of the treatment ranged from 60 to 600 seconds). Nonlinear estimation of the determined growth kinetics of the alloyed layer of a zinc coating was made and an equation of the zinc coating growth was derived. Based on the results of the investigations it was concluded that thickness of the zinc coating formed on the surface of casting with a 100% pearlitic matrix makes 55% of the thickness of coating formed on the surface in 100% ferritic.
Rocznik
Strony
101--104
Opis fizyczny
Bibliogr. 13 poz., rys., tab., wykr.
Twórcy
autor
  • AGH University of Science and Technology, Reymonta 23, 30-059 Kraków, Poland, djk@agh.edu.pl
Bibliografia
  • [1] Kopyciński D. (2010). The shaping of zinc coating on surface steels and ductile iron casting. Archives of Foundry Engineering, 10, 463-470.
  • [2] Kopyciński D., Guzik E., Wołczyński W. (2006). The shaping of zinc coating at the surface of ductile cast iron. Inżynieria Materiałowa, 5, 1081-1084.
  • [3] Kopyciński D., Guzik E. (2008). The zinc coating on the surface ductile cast iron. Inżynieria Materiałowa, 6, 780-783.
  • [4] Kolisnyk P. S., Allen C. J. (1994). Galvanizing Reactive Steel. AGA TECH FORUM. Dallas, Texas, USA. October 12-15 1994, 199-205.
  • [5] Maass P., Peissker P. (1998). Hot-dip galvanizing. Publishing Agency - Placet. Warsaw.
  • [6] Mackowiak J., Short N. R. (1979). Metallurgy of galvanized coating. International Metals Revievs, 1, 1-19.
  • [7] Strutzenberger J., Faderl J. (1998). Solidification and spangle formation of hot-dip galvanized zinc coatings. Metallurgical and Materials Transactions 28A, 631-642.
  • [8] Marder A. R. (2000). The metallurgy of zinc-coated steel. Progress in Materials Science 45, 191-271.
  • [9] Jordan C. E., Marder A. R. (1998). The effect of iron oxide as an inhibition layer on iron-zinc reactions during hot-dip galvanizing. Metallurgical and Materials Transactions 29B, 479-484.
  • [10] Jordan C. E., Marder A. R. (1997). Effect of substrate grain size on iron - zinc reaction kinetics during hot-dip galvanizing. Metallurgical and Materials Transactions 28A, 2683-2694.
  • [11] Jordan C. E., Marder A. R. (1997). Effect of phosphorus surface segregation on iron-zinc reaction kinetics during hot-dip galvanizing. Metallurgical and Materials Transactions 28A, 2695-2703.
  • [12] Guzik E.(2010). Structure and mechanical properties as well as application of high quality vermicular cast iron. Archives of Foundry Engineering, 10, 95-100.
  • [13] Zych J., Żyrek A. (2011). Vermicular cast iron production in the "Inmold" technology (in the Metalpol Casting House) and the assessment of its thermal fatigue resistance. Archives of Foundry Engineering, 11, 255-260.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ7-0006-0043
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