Belete Sirahbizu Yigezu scite author profile

This paper presents the results of the comparative study of as cast microstructures and mechanical properties viz yield strength, ultimate tensile strength, elastic modulus, percentage elongation, hardness, percentage porosity and fracture characteristic of 5 wt% SiC and Al 2 O 3 particulate reinforced Al-4% Cu-2.5% Mg matrix composites. These composite materials were prepared through stir casting process. Quantitative metallographic techniques were utilized to determine the average grain size of particles. The microstructures and tensile fracture characteristic of the representative samples of the composites were examined using optical microscope (OM), scanning electron microscopy (SEM), energy dispersive X-ray analysis (EDX) and X-ray diffraction (XRD) techniques. The experimental results demonstrate a fairly uniform distribution of 50.8 µm Al 2 O 3 and 49.2 µm SiC spherical particles with some clustering in few areas. At the interfaces of Al 2 O 3 and the matrix, MgO and MgAl 2 O 4 were observed. Similarly, Al 4 C 3 was formed at the interfaces between SiC and the matrix. The mechanical property test results revealed that, for the same weight percentage of reinforcement, Al-4% Cu-2.5% Mg/5 wt% SiC composite exhibit a 15.8%, 16.4%, 4.97% and 10.8% higher yield strength, ultimate tensile strength, elastic modulus, and hardness, respectively. On the other hand, even if some porosity was observed in the Al 2 O 3 reinforced composite, the percentage elongation (ductility) was 31% higher than that of SiC reinforced composite. The tensile specimen of SiC reinforced composite failed in a brittle fashion without neck formation, whereas the Al 2 O 3 reinforced composite failed in a ductile fashion with noticeable neck formation.

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Mechanical Property and Abrasive Wear Characteristics of In‐Situ Synthesized Al+12Si/10TiC Composites

Yigezu

Mahapatra

Jha

2013

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On friction stir butt welding of Al + 12Si/10 wt%TiC in situ composite

Yigezu

Venkateswarlu

Mahapatra

et al. 2014

Materials & Design (1980-2015)

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