Enhancing the performance of magnesium alloy AZ31 by integration with millimeter length scale aluminium-based cores

M. Paramsothy; S. F. Hassan; N. Srikanth; M. Gupta

doi:10.1177/0021998309347573

Enhancing the performance of magnesium alloy AZ31 by integration with millimeter length scale aluminium-based cores

M. Paramsothy
, S. F. Hassan
, N. Srikanth
, M. Gupta^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

New bimetal magnesium/aluminium macrocomposites containing millimeter-scale Al-based core reinforcement were fabricated using solidification processing followed by hot coextrusion. Two approaches were attempted for enhancing the performance of AZ31: (a) AZ31 shell integration with pure Al core (pure Al core approach) and (b) AZ31 shell integration with AA5052 core (AA5052 core approach), in that order. In the AA5052 core approach eventually, macrointerface width was increased by 2 orders of magnitude (compared to that in the macrocomposite obtained using the pure Al core approach), while stiffness was increased (+36%), 0.2%YS was unchanged and UTS was increased (+14%) (compared to monolithic AZ31). The evolution of the Mg-Al macrointerface and its effect on microstructure and mechanical properties is investigated in this article.

Original language	English
Pages (from-to)	1099-1117
Number of pages	19
Journal	Journal of Composite Materials
Volume	44
Issue number	9
DOIs	https://doi.org/10.1177/0021998309347573
State	Published - May 2010

Keywords

AZ31/AA5052 macrocomposite
Interface
Mchanical properties
Microstructure

ASJC Scopus subject areas

Ceramics and Composites
Mechanics of Materials
Mechanical Engineering
Materials Chemistry

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10.1177/0021998309347573

Cite this

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title = "Enhancing the performance of magnesium alloy AZ31 by integration with millimeter length scale aluminium-based cores",

abstract = "New bimetal magnesium/aluminium macrocomposites containing millimeter-scale Al-based core reinforcement were fabricated using solidification processing followed by hot coextrusion. Two approaches were attempted for enhancing the performance of AZ31: (a) AZ31 shell integration with pure Al core (pure Al core approach) and (b) AZ31 shell integration with AA5052 core (AA5052 core approach), in that order. In the AA5052 core approach eventually, macrointerface width was increased by 2 orders of magnitude (compared to that in the macrocomposite obtained using the pure Al core approach), while stiffness was increased (+36\%), 0.2\%YS was unchanged and UTS was increased (+14\%) (compared to monolithic AZ31). The evolution of the Mg-Al macrointerface and its effect on microstructure and mechanical properties is investigated in this article.",

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AU - Paramsothy, M.

AU - Hassan, S. F.

AU - Srikanth, N.

AU - Gupta, M.

PY - 2010/5

Y1 - 2010/5

N2 - New bimetal magnesium/aluminium macrocomposites containing millimeter-scale Al-based core reinforcement were fabricated using solidification processing followed by hot coextrusion. Two approaches were attempted for enhancing the performance of AZ31: (a) AZ31 shell integration with pure Al core (pure Al core approach) and (b) AZ31 shell integration with AA5052 core (AA5052 core approach), in that order. In the AA5052 core approach eventually, macrointerface width was increased by 2 orders of magnitude (compared to that in the macrocomposite obtained using the pure Al core approach), while stiffness was increased (+36%), 0.2%YS was unchanged and UTS was increased (+14%) (compared to monolithic AZ31). The evolution of the Mg-Al macrointerface and its effect on microstructure and mechanical properties is investigated in this article.

AB - New bimetal magnesium/aluminium macrocomposites containing millimeter-scale Al-based core reinforcement were fabricated using solidification processing followed by hot coextrusion. Two approaches were attempted for enhancing the performance of AZ31: (a) AZ31 shell integration with pure Al core (pure Al core approach) and (b) AZ31 shell integration with AA5052 core (AA5052 core approach), in that order. In the AA5052 core approach eventually, macrointerface width was increased by 2 orders of magnitude (compared to that in the macrocomposite obtained using the pure Al core approach), while stiffness was increased (+36%), 0.2%YS was unchanged and UTS was increased (+14%) (compared to monolithic AZ31). The evolution of the Mg-Al macrointerface and its effect on microstructure and mechanical properties is investigated in this article.

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KW - Interface

KW - Mchanical properties

KW - Microstructure

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Enhancing the performance of magnesium alloy AZ31 by integration with millimeter length scale aluminium-based cores

Abstract

Keywords

ASJC Scopus subject areas

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