Fabrication of functionally graded few-layered graphene reinforced Al-4.5Cu alloy by powder metallurgy

Fabrication of functionally graded few-layered graphene reinforced Al-4.5Cu alloy by powder metallurgy

Functionally graded materials (FGMs) are a class of innovative materials designed for needs that conventional composite materials cannot provide. Potential application areas such as aerospace, automobile, biomedical, defence, electrical/electronics, energy have begun to increase for the use of FGMs....

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 923; p. 166348
Main Authors: Borand, Gökçe, Uzunsoy, Deniz
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 25-11-2022
Elsevier BV
Subjects:
Allotropy
Alloy powders
Alloys
Aluminium Alloy
Aluminum base alloys
Arc discharges
Avionics
Biomedical materials
Composite materials
Electric arcs
Functionally Graded Materials
Functionally gradient materials
Graphene
Mechanical Alloying
Mechanical properties
Metal Matrix Composite
Physical properties
Powder Metallurgy
Sintering (powder metallurgy)
Thermal expansion
Thermodynamic properties
Weight reduction
Aluminium Alloy
Mechanical Alloying
Powder Metallurgy
Functionally Graded Materials
Metal Matrix Composite
Graphene
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Summary:Functionally graded materials (FGMs) are a class of innovative materials designed for needs that conventional composite materials cannot provide. Potential application areas such as aerospace, automobile, biomedical, defence, electrical/electronics, energy have begun to increase for the use of FGMs. Aluminium and aluminium alloys are preferred in these potential application areas for their physical and mechanical properties such as lightweight, high specific strength, high specific modulus and low thermal expansion coefficient. Graphene, one of the allotropes of carbon, is of great interest worldwide due to its superior mechanical, electrical and thermal properties. In this study, functionally graded graphene reinforced Al-4.5Cu alloy was produced by powder metallurgy. Few-layered graphene (FLG) with high purity, which was synthesized by the electric arc discharge (EAD) was reinforced to the Al-4.5Cu alloy powders that were produced by mechanical alloying as 0,0.1,0.2,0.3,0.5 and 0.7 wt%. These FLG reinforced Al-4.5Cu alloy composite powders considering FGM design with six layers, were pressed by stacking according to their various FLG contents and subjected to sintering at 570 °C and 590 °C for 3 h. It was observed that the FLG, which was graded according to their contents acting as a barrier between grains, was homogeneously dispersed in the Al-4.5Cu alloy matrix in optical and scanning electron images. According to the design of each FGM, an increase in the hardness by 37.11 % and 24.71 % was observed in the last layer compared to the first layer for sintering at 570 °C and 590 °C, respectively. [Display omitted] •Reinforced FLG Al-4.5Cu alloy FGMs were successfully fabricated by powder metallurgy.•The micro hardness of FGM sintered at 570 °C for 3 h increased as 37.11 % from the first layer to the last layer.•The FLG acts as a barrier in the Al-4.5Cu alloy matrix throughout layers of FGMs and decrease the grain size.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2022.166348