The properties among of phytic acid conversion coatings,RE-phytic conversion coatings,rare earth conversion coatings and chromate conversion coatings were compared.The surface micrograph and the corrosion morphology o...The properties among of phytic acid conversion coatings,RE-phytic conversion coatings,rare earth conversion coatings and chromate conversion coatings were compared.The surface micrograph and the corrosion morphology of matrix and various coatings were observed,and the polarization curve,amount of hydrogen evolution and coating binding force were tested.The infrared spectra of phytic acid solution,phytic acid conversion coatings and RE-phytic conversion coatings were compared.The results indicated that the phytic acid coating and RE-phytic acid coating have better corrosion resistance and the RE-phytic acid coating is much better.The infrared spectra indicated that the characteristic peak of phytic acid conversion coatings shift left compared to that of phytic acid.The characteristic peak of RE-phytic conversion coating is similar with that of the phytic acid conversion coating.The di-hydrogen phosphate group of phytic acid reacted with metal matrix or rare earth conversion coating to generate hydrophosphate or phosphate.Phytic acid conversion coating consists of magnesium salt,aluminum salt,zinc salt and ferrous salt.The RE-phytic coating contains cerium salt besides those salts.展开更多
Oxidation behaviors of TP304H steel with electrophoresis deposited CeO2 coating in water vapor were studied at 610℃~770℃ for 65 h. The results showed that CeO2 coating reduced effectively the oxidation rate of TP30...Oxidation behaviors of TP304H steel with electrophoresis deposited CeO2 coating in water vapor were studied at 610℃~770℃ for 65 h. The results showed that CeO2 coating reduced effectively the oxidation rate of TP304H. Analysis with SEM and EDS showed the structure of oxide scale turned from multi-layer to mono-layer and oxide scale with high Cr content formed on the surface of CeO2 coating while inner oxidation disappeared. Based on test results and CeO2characters that Ce ion can vary between Ce4+ and Ce3+ under oxygen-rich and oxygen-poor environment, it is concluded that CeO2 coating acts as a barrier to prevent oxygen inner diffusion and the partial oxygen pressure of CeO2 coating-substrate interface is limited. Cr first diffuses outward across CeO2 coating and forms oxide scale on the surface, which delays formation of Fe oxide.展开更多
基金Funded by the Key Laboratory of Superlight Materials and Surface Technology,Ministry of Education
文摘The properties among of phytic acid conversion coatings,RE-phytic conversion coatings,rare earth conversion coatings and chromate conversion coatings were compared.The surface micrograph and the corrosion morphology of matrix and various coatings were observed,and the polarization curve,amount of hydrogen evolution and coating binding force were tested.The infrared spectra of phytic acid solution,phytic acid conversion coatings and RE-phytic conversion coatings were compared.The results indicated that the phytic acid coating and RE-phytic acid coating have better corrosion resistance and the RE-phytic acid coating is much better.The infrared spectra indicated that the characteristic peak of phytic acid conversion coatings shift left compared to that of phytic acid.The characteristic peak of RE-phytic conversion coating is similar with that of the phytic acid conversion coating.The di-hydrogen phosphate group of phytic acid reacted with metal matrix or rare earth conversion coating to generate hydrophosphate or phosphate.Phytic acid conversion coating consists of magnesium salt,aluminum salt,zinc salt and ferrous salt.The RE-phytic coating contains cerium salt besides those salts.
文摘Oxidation behaviors of TP304H steel with electrophoresis deposited CeO2 coating in water vapor were studied at 610℃~770℃ for 65 h. The results showed that CeO2 coating reduced effectively the oxidation rate of TP304H. Analysis with SEM and EDS showed the structure of oxide scale turned from multi-layer to mono-layer and oxide scale with high Cr content formed on the surface of CeO2 coating while inner oxidation disappeared. Based on test results and CeO2characters that Ce ion can vary between Ce4+ and Ce3+ under oxygen-rich and oxygen-poor environment, it is concluded that CeO2 coating acts as a barrier to prevent oxygen inner diffusion and the partial oxygen pressure of CeO2 coating-substrate interface is limited. Cr first diffuses outward across CeO2 coating and forms oxide scale on the surface, which delays formation of Fe oxide.
