Phosphate conversion coatings are used on the galvanized steel. By forming a thin protective film on the surface of the steels this treatment enhances corrosion resistance. This paper presents studies on phosphate passivation solutions. The results of treatments for different treatment times and more compositions were analyzed in terms of layer thickness, structural aspects, adherence, and continuity of films. Corrosion resistance was assessed by the linear voltammetry test. Activepassive curves were analysed and compared with unpassivated galvanised samples. For each passivation solution experimented Tafel curves were drawn and corrosion rates were determined. The optimal passivation conditions were settled as function on obtained results
Additions of 1 wt % Ca were made to Zn (Zn-1Ca) to generate favourable chemical conditions during co...
AbstractThe aim of this study is to investigate the effect of phosphate solution with Ca2+ additives...
The corrosion resistance of phosphate coating obtained by anodic electrochemical treatment at 4–6 mA...
The formation of zinc phosphate coating by cathodic electrochemical treatment and evaluation of its ...
Industrial hot dip galvanized steels were submitted to a Cr(III)-based passivation treatment(contain...
Zinc phosphate chemical conversion coatings was formed on low carbon steel (API 5L grade B) from nit...
The influence of galvanic coupling of mild steel (MS) with titanium, copper, brass, nickel and stain...
The formation of zinc–zinc phosphate composite coatings by cathodic electrochemical treatment and ev...
The chromate conversion treatment is widely used, but it requires highly toxic chromic acid solution...
A SERDP-sponsored program aims at developing environmentally benign zinc phosphate conversion coatin...
The corrosion resistance of pure zinc coatings can be improved through the application of suitable c...
The corrosion resistance of pure zinc coatings can be improved through the application of suitable c...
Industrial hot dip galvanized steels were submitted to a Cr(III)-based passivation treatment (contai...
Since the use of hexavalent chromium in automotive and electronic equipment is largely prohibited, m...
The corrosion resistance of pure zinc coatings can be improved through the application of suitable c...
Additions of 1 wt % Ca were made to Zn (Zn-1Ca) to generate favourable chemical conditions during co...
AbstractThe aim of this study is to investigate the effect of phosphate solution with Ca2+ additives...
The corrosion resistance of phosphate coating obtained by anodic electrochemical treatment at 4–6 mA...
The formation of zinc phosphate coating by cathodic electrochemical treatment and evaluation of its ...
Industrial hot dip galvanized steels were submitted to a Cr(III)-based passivation treatment(contain...
Zinc phosphate chemical conversion coatings was formed on low carbon steel (API 5L grade B) from nit...
The influence of galvanic coupling of mild steel (MS) with titanium, copper, brass, nickel and stain...
The formation of zinc–zinc phosphate composite coatings by cathodic electrochemical treatment and ev...
The chromate conversion treatment is widely used, but it requires highly toxic chromic acid solution...
A SERDP-sponsored program aims at developing environmentally benign zinc phosphate conversion coatin...
The corrosion resistance of pure zinc coatings can be improved through the application of suitable c...
The corrosion resistance of pure zinc coatings can be improved through the application of suitable c...
Industrial hot dip galvanized steels were submitted to a Cr(III)-based passivation treatment (contai...
Since the use of hexavalent chromium in automotive and electronic equipment is largely prohibited, m...
The corrosion resistance of pure zinc coatings can be improved through the application of suitable c...
Additions of 1 wt % Ca were made to Zn (Zn-1Ca) to generate favourable chemical conditions during co...
AbstractThe aim of this study is to investigate the effect of phosphate solution with Ca2+ additives...
The corrosion resistance of phosphate coating obtained by anodic electrochemical treatment at 4–6 mA...
Add to ORKG