Effects of SiC particulate size on dynamic compressive properties in 7075-T6 Al-SiC^sub p^ composites

Quasi-static and dynamic compressive properties of 7075-T6 Al matrix composites reinforced with SiCps (size; 10 µm, 30 µm, and bimodal (10 + 30) μm), i.e., 10S, 30S, and BS composites, respectively, were investigated in relation with fracture mechanisms. SiCps were homogeneously distributed without...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2018-12, Vol.738, p.412
Main Authors: Lee, Hyungsoo, Choi, Jin Hyeok, Jo, Min Chul, Lee, Donghyun, Shin, Sangmin, Jo, Ilguk, Lee, Sang-Kwan, Lee, Sunghak
Format: Article
Language:English
Subjects:
Aluminum base alloys
Aluminum composites
Aluminum matrix composites
Aluminum silicates
Compressive properties
Compressive strength
Crack initiation
Deformation mechanisms
Flux density
Fracture mechanics
Impact analysis
Metal matrix composites
Particle size
Particulate composites
Properties (attributes)
Silicon carbide
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Summary:Quasi-static and dynamic compressive properties of 7075-T6 Al matrix composites reinforced with SiCps (size; 10 µm, 30 µm, and bimodal (10 + 30) μm), i.e., 10S, 30S, and BS composites, respectively, were investigated in relation with fracture mechanisms. SiCps were homogeneously distributed without SiCp agglomeration, pores, or cracks, and their volume fractions were 49.5 vol%, 54.1 vol%, and 56.5 vol% in the 30S, 10S, and BS specimens, respectively. Compressive properties could be explained by a rule of mixtures based on SiCp volume fraction and by three major fracture phenomena including deformation of Al matrix, cracking of SiCps, and interfacial debonding between SiCp and Al. As the SiCp size decreased, crack initiation sites changed from SiCps themselves to SiCp/Al interfaces, which mainly affected the compressive strength. In the BS composite, coarse SiCps additionally worked for the strengthening by increasing the total reinforcement fraction, and the three fracture phenomena were well homogenized, thereby leading to the highest strain energy density as well as the best combination of strength and strain.
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2018.09.082