Abstract
Hexavalent chromium-based passivation treatments have been successfully used as promoters of conversion coatings for many years. Their effectiveness is without question although there are many problems with regard to their environmental suitability. Hexavalent chromium compounds are carcinogenic and toxic. These problems have lead researchers to evaluate other potential systems, with lower toxicity, to ascertain if they can replace chromates as effective passivators. Researchers have proposed several alternative passivation treatments; these are processes based on molybdates, permanganates, titanates, rare earth metal and Cr3+ (considered to be non-carcinogenic) compounds. In this work, zinc coatings obtained from free-cyanide alkaline bath and submitted to a Cr3+ based passivation treatment with different colors were studied. The corrosion behavior was studied by polarization measurements and mainly by electrochemical impedance spectroscopy in 0.6 N NaCl solution. Morphological observations on the coatings surface were also performed. The results indicate that the green-colored Cr3+ passivated coatings have a good corrosion resistance followed by yellow and blue-colored passivation respectively. They could be a less polluting alternative to the traditional chromated coatings.
Highlights
Electroplated zinc coating is employed as active galvanic protection for steel
The results indicate that the green-colored Cr3+ passivated coatings have a good corrosion resistance followed by yellow and blue-colored passivation respectively
The consideration of the coating morphology after the coating/drying process is very important since the presence of flaws such as pores and/or other defects could be areas were localized corrosion of the treated zinc surface starts from its exposure to a given environment [33]
Summary
As the zinc is an electrochemically highly reactive metal, its corrosion rate may be high in indoor but under outdoor exposure conditions [1] For this reason, it is necessary a post treatment in order to increase the lifetime of zinc coatings. This treatment consists of immersion in a chemical bath that forms a conversion layer on plated zinc This latter layer is a dielectric passive layer with high corrosion resistance and is a better surface for paint adherence. Responding to increasingly more rigorous environmental protection activities, recent years have shown progressive advances in order to reduce the use of environmentally-hazardous materials In line with this purpose, the development of various kinds of chromate-free coated steel sheets, to be used in food, automotive, appliances, etc. This finding was confirmed by Tomachuk et al [11,12]
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