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Translated from Metallurg, No. 1, pp. 88–90, January, 2016.
The microstructure and mechanical properties of castings made of alloy Al+3%Mg were studied along with a tire mold made by low-pressure casting. The microstructure of the alloy was analyzed by optical microscopy, and scanning electron microscopy and energy-dispersive x-ray spectroscopy were used to perform a detailed analysis of its structural components. Static tests of tensile strength were conducted and Brinell hardness was measured to evaluate its mechanical properties. The tensile tests were carried out at normal and elevated temperatures in order to simulate the service conditions of the mold.
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Š. Michna, I. Lukač, et al., Aluminum Materials and Technologies from A to Z, Adin, Prešov (2007).
E. Střihavkova, V. Weiss, and Š Michna, “Study of the structure and fluidity of alloy of the Al–Si–Mg system with a different calcium content,” Metallurgist, 56, No. 9–10, 708–713 (2013). CrossRef
V. Weiss and E. Střihavkova, “Influence of the homogenization annealing on microstructure and mechanical properties of AlZn5.5Mg2.5Cu1.5 alloy,” Manufact. Technol., 12, No. 13, 1213–2489 (2012).
V. Weiss and I. Kvapilova. “Assessment of the effect of temperature and annealing time homogenization AlCu4MgMn alloys in terms of microstructure image analysis methods and EDX,” Manufact. Technol., 13, No. 13, 1213–2489 (2013).
N. Náprstková, J. Cais, and J. Svobodová, “The effect of modification by strontium of the AlSi7Mg0.3 alloy on the surface roughness,” Manufact. Technol. J. for Sci., Res. and Production, 13, No. 3, 380–384 (2013).
- Microstructure and Mechanical Properties of Products of Alloy AL+3%Mg Made by Low-Pressure Casting
- Springer US
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