Microstructure and tensile properties of thixomolded magnesium alloys

Microstructure and tensile properties of thixomolded magnesium alloys

Weight reduction is one of effective ways to reduce fuel consumption and greenhouse gas emissions in aerospace and ground vehicles. Cast magnesium alloys are increasingly used in the automotive industry because of the flexibility in fabrication and high strength-to-weight ratio. Thixomolding is an i...

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 496; no. 1; pp. 140 - 148
Main Authors: Patel, H.A., Chen, D.L., Bhole, S.D., Sadayappan, K.
Format: Journal Article
Language:English
Published: Kidlington Elsevier B.V 30-04-2010
Elsevier
Subjects:
Alloys
Applied sciences
Automotive components
Automotive engineering
Elasticity. Plasticity
Exact sciences and technology
Fracture mechanics
Magnesium
Magnesium alloy
Magnesium base alloys
Mechanical properties
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals and alloys
Metals. Metallurgy
Microstructure
Strain hardening
Tensile properties
Thixomolding
Mechanical properties
Metals and alloys
Microstructure
Thixomolding
Strain hardening
Magnesium alloy
Strain rate sensitivity
Stress strain relation
Tensile property
Cast alloy
Magnesium base alloys
Cleavage fracture
Elastoplasticity
Manufacturing process
Thixoforming
Automobile industry
Fracture mode
Strain rate
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Summary:Weight reduction is one of effective ways to reduce fuel consumption and greenhouse gas emissions in aerospace and ground vehicles. Cast magnesium alloys are increasingly used in the automotive industry because of the flexibility in fabrication and high strength-to-weight ratio. Thixomolding is an innovative and energy-saving manufacturing process which can be used to produce net-shape magnesium components. This study was aimed at evaluating tensile properties, strain hardening, strain-rate sensitivity, and fracture mechanisms of thixomolded AZ91D and AM60B alloys in relation to the microstructural features. The microstructure of both thixomolded alloys consisted mainly of globular primary α-Mg phase surrounded by network-like eutectic structure containing intermetallic β-Mg 17Al 12 phase. AM60B alloy had a higher volume fraction of α-Mg phase and lower amount of β-Mg 17Al 12 phase, exhibiting a lower yield strength and a higher ductility and strain hardening exponent than AZ91D alloy. The strain-rate sensitivity in both thixomolded alloys appeared to be weak, but it was slightly higher in AM60B alloy compared to AZ91D alloy. While AZ91D alloy displayed a gradual transition from elastic to plastic deformation, AM60B alloy showed a tendency of yield-point-like phenomenon which became more obvious with increasing strain rate. Stage III strain hardening rate decreased linearly with increasing true stress, but the slope of stage III hardening increased with increasing strain rate in both alloys. The AZ91D alloy exhibited more cleavage-like fracture characteristics together with the secondary cracking along the eutectic structure, while AM60B had more dimple-like features arising from the formation and coalescence of microvoids.
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ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2010.02.042