1. Microstructure and thermal properties of an Al–Mg alloy solidified at high temperature in the argon atmosphere
- Author
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R.G. R.G. Abdulkarimova, B. Milikhat, K. Kamunur, and N.K. Bekmurat
- Subjects
Materials science ,Magnesium ,Metallurgy ,Alloy ,chemistry.chemical_element ,engineering.material ,Microstructure ,Phase formation ,Combinatorics ,chemistry ,Aluminium ,Argon gas ,Thermal ,engineering ,Argon atmosphere - Abstract
In this study, phase formation, the microstructure and the thermal properties of an Al-Mg alloy solidified at high temperature in the argon atmosphere were investigated. The maximum formation of a single-phase Al-Mg alloy was determined by the ratio of the primary aluminum and magnesium components Al – 50 at.% Mg and argon gas flow at a temperature of 750 oC. After solidification at pressures of 1 MPa and 2 MPa, the main phases are the β and γ phases of Al-Mg alloy, in equilibrium condition. The thermal properties of the Al-Mg alloy were studied using DTA-TG (Tmelting = 458.4 oC, Тoxidation= 568.4 and 616.9 oC oxidation of pure Mg and pure Al, respectively).
- Published
- 2021
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