Characterisation of fresh surface films formed on molten Mg-Nd alloy protected by different atmospheres

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• 作者：A.R. Mirak^a ; ^{mirak@iust.ac.ir" class="auth_mail} ; C.J. Davidson^b ; J.A. Taylor^a
• 关键词：Mg&ndash ; Nd alloy ; SEM ; EDX ; Surface films ; Oxidation ; Fluoridation ; Protective gas
• 刊名：Applied Surface Science
• 出版年：15 May, 2014
• 年：2014
• 卷：301
• 期：Complete
• 页码：91-98
• 全文大小：5784 K

文摘

This study examines the early stages of surface oxidation of liquid Mg-3 wt%Nd under UPH argon, dry air, and air mixed with protective fluorine-bearing gases. Each of the gases were introduced as bubbles into solidifying castings. The chemistry and structure of the protective film inside the trapped bubbles were characterized by SEM and EDX analyses. Results show that due to Nd added to Mg alloy under dry air, a dense and wrinkled surface film that contains MgO and Nd₂O₃ are formed. Under fluorine-bearing gas mixtures, a dense and coherent surface film was found to be a mixed fluoride and oxide. For SF₆, the film thickness was 50-100 nm thick while for HFC-R134a it was 35-45 nm. Needle shaped phases distributed in the Mg matrix and flake-like phases segregated on the inner bubble surface in proximity to the interdendritic regions of the alloy were both identified as Nd rich compounds. These were present under all gas conditions. The results obtained lead to a conclusion that HFC-R134a is capable of providing the most effective melt protection. The integrity and protective capability of the early surface film formation on the liquid Mg-Nd alloy was found to be significantly improved compared to pure Mg under identical gas conditions due to formation of a dense and compact MgO/Nd₂O₃ layer, regardless of whether fluorine species were also present.