PROCESSING AND MICROSTRUCTURAL CHARACTERIZATION OF SICP REINFORCED A356 METAL MATRIX COMPOSITES

Authors

  • Jibin Bose T C Department of Mechanical Engineering, College of Engineering Trivandrum, Kerala-695016, India
  • Aswinikumar G L Department of Mechanical Engineering, College of Engineering Trivandrum, Kerala-695016, India
  • Rajeev V R Department of Mechanical Engineering, College of Engineering Trivandrum, Kerala-695016, India
  • Jayaraj K Department of Mechanical Engineering, College of Engineering Trivandrum, Kerala-695016, India
  • Ajith Prabhu V Kerala State Council for Science Technology and Environment, Trivandrum, Kerala-695004, India

Keywords:

Composites, Stir Casting Method, Microstructure , Tensile Property

Abstract

In the present study attempts were made to fabricate the A356/ (0-20%)SiCp composites from A356 alloy through liquid metal stir casting method. Hard abrasive particle such as silicon carbide (SiCp) with average particle size 23µm was used for the study. Microstructural examination shows a better particle distribution in the A356/10%SiCp and the A356/20%SiCp composites. Mechanical and heat treatment characterization has been done to evaluate the properties of the developed composites and found that hardness improved for the composites compared to its base alloy. Tensile stress versus tensile strain graphs for the developed composites have shown that its brittle behavior is more compared to its base alloy. XRD analysis of the composites has shown the presence of major hardening phases like Mg2Si, Al2Cu etc.

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References

Surappa M K (2003), “Aluminium Matrix Composites: Challenges and Opportunities”, Sadhana, Vol. 28, 319-334.

Das S (2004), “Development of Aluminium Alloy Composites for Engineering Application”, Transactions of the Indian Institute of Metals, Vol. 57, 325-334.

Miracle D B (2005), “Metal Matrix Composites-From Science to Technological Significance”, Composite Science and Technology, Vol. 65, 2526-2540.

Yalcin Y and Akbulut H (2006), “Dry Wear Properties of A356-SiC Particle Reinforced MMCs Produced by Two Melting Routes”, Materials and Design, Vol. 27, 872-881.

Rohatgi P K, Liu Y, Yin M and Barr T L (1990), “A Surface-Analytical Study of Tribodeformed Aluminium Alloy 319-10 vol.% Graphite Particle Composite”, Material Science and Engineering, Vol. 23, 213-218.

Hashim J, Looney l and Hashmi M S J (2001), “Enhancement of SiC Particles in Cast Aluminium Matrix Composites”, Journal of Microprocessing Technology, Vol. 119, 329-335.

Crowe C R, Gray R A and Hasson D F (1985), “Proceedings of the Fifth International Conference on Composite Materials”, pp. 843.

Schwartz M M (1984), “Composite Materials Handbook”, New York.

Naher S, Brabazon D and Looney L (2004), “Development and Assessment of a New Quick Quench Stir Caster Design for the Production of Metal Matrix Composites”, Journal of Materials Processing Technology, Vol. 166, 430-439.

Dheerendra Kumar Dwivedi (2004), “Sliding Temperature and Wear Behaviour of Cast Al–Si–Mg Alloys”, Material Science and Engineering, Vol. 382, 328–334.

Ning Wang, Zhinui Wang and George C Weatherly (1990), “Proceedings of International Conference on Fabrication of Particulates Reinforced Metal Composites”, Quebec, Canada, 145-151.

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Published

2013-03-01

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Section

Articles

How to Cite

[1]
“PROCESSING AND MICROSTRUCTURAL CHARACTERIZATION OF SICP REINFORCED A356 METAL MATRIX COMPOSITES”, JME, vol. 8, no. 1, pp. 038–042, Mar. 2013, Accessed: Dec. 23, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/332

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