Phase Evolution - Property Relationships of PIMed 5 - 40 Vol.% SiCp - Reinforced Aluminium Composite

Microstructure-mechanical property relationships of powder injection molded aluminium composite reinforced with 5 - 40 vol.% silicon carbide particulate (SiCp) has been investigated via thermal and phase analyses along with density and hardness testing. The samples were injection molded and sintered...

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Published inIOP conference series. Materials Science and Engineering Vol. 600; no. 1; pp. 12014 - 12023
Main Authors Patcharawit, Tapany, Ngeekoh, Arada, Chuankrerkkul, Nutthita
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.08.2019
Subjects
Age hardening
aluminium composite
Aluminum
Bulk density
Clustering
Diamond pyramid hardness
Endothermic reactions
Exothermic reactions
Fluid dynamics
Liquid flow
Liquid phase sintering
Liquid phases
Microstructure
phase evolution
powder injection molding
properties
Silicon carbide
Sintering (powder metallurgy)
Theoretical density
Thermal analysis
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Summary:Microstructure-mechanical property relationships of powder injection molded aluminium composite reinforced with 5 - 40 vol.% silicon carbide particulate (SiCp) has been investigated via thermal and phase analyses along with density and hardness testing. The samples were injection molded and sintered at 645 - 800 °C in N2 atmosphere. Thermal analysis showed endothermic reactions around 632 - 643 °C, related to liquid phase formation. Exothermic reactions about 458 - 461 °C and weight gains around 471 - 479 °C were plausibly associated with AlN formation, which facilitated liquid phase sintering. The composite microstructure exhibited close interfaces between SiCp - Al and Al - Al for 5 - 20 vol.% SiCp addition. Higher SiCp addition however led to SiCp clustering, creating large pores and unreacted SiCp - SiCp interface, which prohibited both liquid flow and rearrangement of the solid grains and pore filling during liquid phase sintering. Optimum SiCp addition was achieved at 15 vol.%, giving the maximum bulk density at 2.68 g.cm−3 or at 94.2 % theoretical density. The maximum macro Vickers hardness values at 138.9 and 166.6 Hv were obtained in the as - sintered and age - hardened conditions respectively.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/600/1/012014