简介概要

Effect of Post Heat Treatment on Corrosion Resistance of Phytic Acid Conversion Coated Magnesium

来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2013年第2期

论文作者:R.K. Gupta K. Mensah-Darkwa D. Kumar

文章页码:180 - 186

摘    要:An environment friendly chemical conversion coating for magnesium was obtained by using a phytic acid solution. The effect of post-coating 1heat treatment on the microstructures and corrosion properties of phytic acid conversion coated magnesium was investigated. It was observed that the microstructure and corrosion resistive properties were improved for the heat treated samples. The corrosion current density for bare magnesium, phytic acid conversion coated magnesium, and post-coating heat treated magnesium was calculated to be 2.48×105 , 1.18×106 , and 9.27×107 A/cm2 , respectively. The lowest corrosion current density for the heat treated sample indicated its highest corrosion resistive effect for the magnesium. The maximum corrosion protective nature of the heat treated sample was further confirmed by the largest value of impedance in electrochemical impedance spectroscopy studies.

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Effect of Post Heat Treatment on Corrosion Resistance of Phytic Acid Conversion Coated Magnesium

R.K. Gupta,K. Mensah-Darkwa,D. Kumar

Engineering Research Center for Revolutionizing Metallic Biomaterials (ERC-RMB), Department of Mechanical Engineering, North Carolina A&T State University, 1601 East Market Street, Greensboro, NC 27411, USA

摘 要:An environment friendly chemical conversion coating for magnesium was obtained by using a phytic acid solution. The effect of post-coating 1heat treatment on the microstructures and corrosion properties of phytic acid conversion coated magnesium was investigated. It was observed that the microstructure and corrosion resistive properties were improved for the heat treated samples. The corrosion current density for bare magnesium, phytic acid conversion coated magnesium, and post-coating heat treated magnesium was calculated to be 2.48×105 , 1.18×106 , and 9.27×107 A/cm2 , respectively. The lowest corrosion current density for the heat treated sample indicated its highest corrosion resistive effect for the magnesium. The maximum corrosion protective nature of the heat treated sample was further confirmed by the largest value of impedance in electrochemical impedance spectroscopy studies.

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