Mechanical properties of rolled A356 based composites reinforced by Cu-coated bimodal ceramic particles

• Published in: Materials & design Vol. 83; pp. 678 - 688
• Main Authors: Beigi Khosroshahi, N., Taherzadeh Mousavian, R., Azari Khosroshahi, R., Brabazon, D.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.10.2015
• Subjects: A356; Aluminum base alloys; ALUMINUM OXIDE; Bimodal; CERAMICS; COATINGS; COMPOSITES; Copper; HARDNESS; MECHANICAL PROPERTIES; Metal matrix composite; Particulate composites; PROPERTIES; REINFORCEMENT; Rolling; Semi-solid processing; Silicon carbide; Rolling; Mechanical properties; Bimodal; Ceramics; Metal matrix composite; A356
• ISSN: 0264-1275; 1873-4197
• DOI: 10.1016/j.matdes.2015.06.027

[Display omitted] •Application of bimodal type and sized ceramic particles as reinforcement of A356 matrix.•A higher mechanical properties of a composite containing bimodal type reinforcements.•Considerable effects of rolling process after stir casting on the microstructure and mechanical properties. Three kinds of A356 based composites reinforced with 3wt.% Al2O3 (average particle size: 170μm), 3wt.% SiC (average particle size: 15μm), and 3wt.% of mixed Al2O3–SiC powders (a novel composite with equal weights of reinforcement) were fabricated in this study via a two-step approach. This first process step was semi-solid stir casting, which was followed by rolling as the second process step. Electroless deposition of a copper coating onto the reinforcement was used to improve the wettability of the ceramic particles by the molten A356 alloy. From microstructural characterization, it was found that coarse alumina particles were most effective as obstacles for grain growth during solidification. The rolling process broke the otherwise present fine silicon platelets, which were mostly present around the Al2O3 particles. The rolling process was also found to cause fracture of silicon particles, improve the distribution of fine SiC particles, and eliminate porosity remaining after the first casting process step. Examination of the mechanical properties of the obtained composites revealed that samples which contained a bimodal ceramic reinforecment of fine SiC and coarse Al2O3 particles had the highest strength and hardness.