화학공학소재연구정보센터
Journal of the Electrochemical Society, Vol.150, No.7, B295-B302, 2003
Corrosion and electrochemical properties of Sn-8% Zn alloy-coated steel in methanol containing H2O, NaCl, and HCOOH
Corrosion and electrochemical properties of Sn-8% Zn alloy-coated steel prepared by a melt-dipping method have been investigated in methanol containing H2O, NaCl, and HCOOH, which are known as contaminants in methanol fuel. The coated steel showed high corrosion resistance in methanol containing 0.1-30% H2O and 0.1-30% H2O + 0.1% NaCl. However, the coated steel showed slight corrosion in methanol containing 0.1-30% H2O 1 0.1% HCOOH. Polarization curves measured in methanol containing 0.1-30% H2O 1 0.1% NaCl showed that the corrosion potential of the coated steel was close to that of Zn, while the pitting potential of the coated steel was close to that of Sn. Polarization curves of the coated steel measured in methanol containing 0.1-30% H2O 1 0.1% HCOOH showed that both anodic and cathodic currents monotonously increased from corrosion potentials. This behavior was very similar to that of Zn. According to Auger electron spectroscopy and X-ray photoelectron spectroscopy analyses, the surface film of the coated steel after an immersion corrosion test in methanol containing 0.1% H2O 1 0.1% NaCl was composed of a large amount of oxide and hydroxide of Zn and a small amount of those of Sn. It was presumed that the corrosion of the coated steel in methanol containing H2O, NaCl, and HCOOH proceeded through the selective dissolution of the Zn component in the coating layer. (C) 2003 The Electrochemical Society.