Microstructural characterization of the Mg-Al alloy AM50 produced by a newly developed rheo-casting process
Journal article, 2014

The microstructure of rheo-cast Mg-Al alloy AM50 produced by the RheoMetal process is investigated and compared with the same alloy produced by conventional high pressure die casting. The size and arrangement of microstructural constituents and pores are characterized quantitatively using image analyzing techniques. The nearest neighbor distribution of the intermetallic particles is determined. The area fraction of porosity in rheo-cast AM50 is about half that found in the high pressure die cast alloy. In rheo-cast material, the distribution of p phase (Mg17Al12) is relatively uniform throughout the cast. In contrast, the beta phase particles tend to form macroscopic agglomerates in high pressure die cast material. The externally solidified grains in the rheo-cast material exhibit a smaller aluminum gradient than in the high pressure die cast alloy. This indicates that the solidification of the rheo-cast material is closer to equilibrium.

AZ91D

CORROSION

Magnesium

SIMA

TEXTURE

Microstructure

MECHANICAL-PROPERTIES

RheoMetal process

MAGNESIUM ALLOY

PROCESS PARAMETERS

High pressure die casting

Author

Mohsen Esmaily

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Mehrdad Shahabi Navid

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Nooshin Mortazavi Seyedeh

Chalmers, Applied Physics, Materials Microstructure

Jan-Erik Svensson

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Mats Halvarsson

Chalmers, Applied Physics, Materials Microstructure

M. Wessen

School of engineering Jönköping university

A. E. W. Jarfors

School of engineering Jönköping university

Lars-Gunnar Johansson

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Materials Characterization

1044-5803 (ISSN)

Vol. 95 50-64

Subject Categories

Materials Engineering

DOI

10.1016/j.matchar.2014.06.001

More information

Latest update

5/14/2018