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作 者:A.S.Gnedenkov S.L.Sinebryukhov A.D.Nomerovskii V.S.Marchenko A.Yu.Ustinov S.V.Gnedenkov
机构地区:[1]Institute of Chemistry of FEB RAS,159 Pr.100-letiya Vladivostoka,Vladivostok 690022,Russia
出 处:《Journal of Magnesium and Alloys》2024年第7期2909-2936,共28页镁合金学报(英文)
基 金:supported by the Grant of Russian Science Foundation,Russia(project no 20–13–00130,https://rscf.ru/en/project/20-13-00130/);supported by the Grant of Russian Science Foundation,Russia(project no 24–73–10008,https://rscf.ru/en/project/24-73-10008/);XRD data were obtained under the government assignments from the Ministry of Science and Higher Education of the Russian Federation,Russia(project no FWFN-2024-0001).
摘 要:The efficiency of the green inhibitors(sodium salts of fumarate,glycolate and gluconate)in suppressing corrosion of the structural MA8 magnesium alloy(Mg–Mn–Ce)and the biomedical Mg–0.8Ca alloy was studied using the hydrogen evolution measurements,mass loss test,EIS,PDP,SVET/SIET.The analysis of the morphology,chemical composition,and growth kinetic of corrosion films formed in 0.9 wt%NaCl solution with and without corrosion inhibitors was carried out.The most compact surface film with the smallest thickness was formed in a saline solution with sodium fumarate.The Mg alloy samples exhibited the highest polarization resistance,the lowest localized electrochemical activity,and the lowest corrosion rate in saline with the addition of sodium fumarate and sodium glycolate.The efficiency of the applied inhibitors was up to 81%.The model of the corrosion mechanism based on the sorption of molecules of organic inhibitors is proposed.The results show the high compatibility of the used inhibitors with the calcium-phosphate PEO-matrix,indicating the possibility of forming a self-healing coating by means of these active substances.
关 键 词:Magnesium and its alloys Organic inhibitor Electrochemical behavior PEO-coatin Bioresorbable implant Degradation mechanism
分 类 号:TG174.42[金属学及工艺—金属表面处理] R318[金属学及工艺—金属学]
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