Investigation of Mechanical and Tribological Properties of LM6-Fly Ash Metal Matrix Composite

Author:

Dhar Asim Kumar1,Sutradhar Goutam2

Affiliation:

1. Institute of Engineering and Management, India

2. National Institute of Technology, Imphal, India

Abstract

Composite materials assume a significant part in auto, aviation, marine, and defense applications due to its unique properties. Aluminum alloys have certain advantages over other alloys. In this paper, the composite material comprised of Aluminum Alloy LM6 and fly ash (150 – 175 μm) has been picked as lattice and supporting materials individually. Magnesium is added to lessen the surface pressure and evade the dismissal of the particles from the melts. Liquid state processing through stir casting procedure was adopted for fabrication of mmc into necessary shape and size according to the ASTM principles by energetically mixing at consistent speed and time. The fly ash with various syntheses (2%, 4%, 6%) were added with LM6 combination. XRD and EDAX were used to examine the structural analysis of MMC, and optical microscopy and SEM were used to investigate the microstructure on MMC. Wear test was also carried out on MMC to ascertain the wear rate and cof of different MMCs. There is substantial improvement of mechanical properties like tensile strength, micro hardness, and density of the composite.

Publisher

IGI Global

Subject

Surfaces, Coatings and Films,Biomaterials

Reference37 articles.

1. Effect of SiC particulate reinforcement on the dry sliding wear of aluminium-silicon alloys (A356);A. T.Alpas;Wear,1992

2. Anilkumar, H. C., Hebbarand, H. S., & Ravishankar, K. S. (2011). Mechanical properties of fly ash reinforced aluminium alloy (al6061) composites. IJMME, 6.

3. Arun, Kumar, Kulkarni, & Kuldeep. (2013). Characteristic Studies on Aluminium Based Silicon Carbide and Fly Ash Particulate Metal Matrix Composite. IJERT, 2(6).

4. Balasivanandha, P., & Karunamoorthy, S., (2008). Microstructure- based finite element analysis of failure prediction in particle-reinforced metal-matrix composite. Journal of Materials Processing Technology, 207, 53-62.

5. Basavarajappa, S., Chandramohan, G., Subramanian, R. & Chandrasekar, A. (2006). Dry sliding wear behaviour of Al 2219/SiC metal matrix composites. Materials Science-Poland, 24(2), 357-366.

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