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Impression creep behavior of a cast MRI153 magnesium alloy
Highlights Impression creep properties of MRI153 alloy was studied at 425–490K. Pipe diffusion climb controlled creep is the dominant creep mechanism. Ca improves creep properties via dissolving in Mg17Al12 and forming Al2Ca phase.
Abstract Creep behavior of a cast MRI153 magnesium alloy was investigated using impression creep technique. The tests were carried out under constant punching stress in the range of 360–600MPa at temperatures between 425 and 490K. Microstructure of the alloy was composed of α(Mg) matrix phase besides Mg17Al12 and Al2Ca intermetallic compounds. Stress exponent of minimum creep rate, n, was found to vary between 6.45 and 7. Calculation of the activation energy showed a slight decrease with increasing stress such that the creep activation energy of 115.2kJ/mol under σ imp/G =0.030 decreased to 99.5kJ/mol under σ imp/G =0.040. The obtained stress exponent and activation energy data suggested that the pipe diffusion dislocation climb controlled creep as the dominant mechanism during the creep test.
Impression creep behavior of a cast MRI153 magnesium alloy
Highlights Impression creep properties of MRI153 alloy was studied at 425–490K. Pipe diffusion climb controlled creep is the dominant creep mechanism. Ca improves creep properties via dissolving in Mg17Al12 and forming Al2Ca phase.
Abstract Creep behavior of a cast MRI153 magnesium alloy was investigated using impression creep technique. The tests were carried out under constant punching stress in the range of 360–600MPa at temperatures between 425 and 490K. Microstructure of the alloy was composed of α(Mg) matrix phase besides Mg17Al12 and Al2Ca intermetallic compounds. Stress exponent of minimum creep rate, n, was found to vary between 6.45 and 7. Calculation of the activation energy showed a slight decrease with increasing stress such that the creep activation energy of 115.2kJ/mol under σ imp/G =0.030 decreased to 99.5kJ/mol under σ imp/G =0.040. The obtained stress exponent and activation energy data suggested that the pipe diffusion dislocation climb controlled creep as the dominant mechanism during the creep test.
Impression creep behavior of a cast MRI153 magnesium alloy
Rashno, S. (author) / Nami, B. (author) / Miresmaeili, S.M. (author)
2014-03-31
6 pages
Article (Journal)
Electronic Resource
English
Impression creep behavior of a cast MRI153 magnesium alloy
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