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Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method

Year 2012, Volume: 1 Issue: 2, 187 - 197, 27.03.2016

Abstract

The dispersion strengthened of Al-2.8%Si-0.8%Fe alloy reinforced with rice husk ash was produced by double stir-casting method. Properties namely: density, hardness, impact energy, tensile strength and microstructure were analyzed. The result of the tests and analysis carried out, revealed that addition of rice husk ash as reinforcement increases hardness values with a decrease in density and impact energy, as the weight fraction of rice husk ash increased in the alloy. The strength increased up to a maximum of 15 wt% addition of the reinforcement. The microstructure revealed the distribution of the rice husk ash particle in the ductile metal matrix. However, an increase in strength and hardness values occurs because the highly dispersed phase severely restricts the movement of dislocation through the metal lattice. This study has showed that abundant rice husk can be used in the production of metal matrix composites for engineering applications.

References

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  • Aigbodion VS. Potential of using bagasse ash particle in metal matrix composite, PhD Dissertation, Department of Metallurgical and Materials Engineering, Ahmadu Bello University, Samaru, Zaria, Nigeria, 34 – 50, 2010.
  • Siva Prasad D and Rama Krishna A. Production and mechanical properties of A356.2 /RHA composites. International Journal of Advanced Science and Technology, 2011; 33: 51 – 58.
  • Arun Kumar MB and Swamy RP. Evaluation of mechanical properties of Al6061, flyash and e-glass fiber reinforced hybrid metal matrix composites. ARPN Journal of Engineering and Applied Sciences, 2011; 6(5): 40 – 44.
  • Rohatgi PK, Rajan TPD, Pillai RM, Pai BC and Satyanarayana KG. Fabrication and characterization Al–7Si–0.35Mg/fly ash metal matrix composites processed by different stir casting routes. Composites Science and Technology, 2007; 67, 3369 – 3377.
  • Aigbodion VS. Particulate-strengthened of Al-Si alloy/alumino-silicate composite materials science and Engineering A, 2007: 460 – 461, 574 – 578.
  • Bienia J, Walczak M, Surowska B and Sobczaka J. Microstructure and corrosion behaviour of aluminium fly ash composites. Journal of Optoelectronics and Advanced Materials, 2003; 5(2), 493 – 502.
  • Naresh P. Development and characterization of metal matrix composite using red Mud an industrial waste for wear resistant applications, PhD Thesis, Department of Mechanical Engineering, National Institute of Technology Rourkela, India, 23 – 34, 2006.
  • Guo RQ, Rohatgi PK and Nath D. Compacting characteristics of aluminium-fly ash powder mixtures. Journal of Materials Science, 1996; 31, 5513 – 5519.
  • Guo RQ, Rohatgi PK and Ray S. Casting characteristics of aluminium alloy, fly ash composites. Transactions of the American Foundrymen’s Society, 1996; 104: 1097 – 1102.
  • Rohatgi PK and Guo RQ. Low Cost Cast Aluminium – fly ash composites for ultralight automotive application. TMS Annual Meeting, Automotive Alloys, 157- 168, 1997.
  • Rohatgi PK. Low-cost, fly ash containing aluminium matrix composites. JOM, 1994; 29: 55 – 59.
  • Rohatgi PK, Guo RQ and Keshavaram BN. Cast aluminium alloy – fly ash composites. Key Engineering Materials, 1995; 104-107: 283 – 292.
  • Rohatgi PK, Guo RQ, Iksan. H, Borchelt EJ and Asthana R. Pressure infiltration technique for synthesis of aluminium-fly ash particulate composite. Metallurgical & Materials Transaction A, 1997; 244: 22 – 30.
  • Zhou W and Xu ZM. Casting of SiC reinforced metal matrix composites. J. Materials Proc. Technol., 1997; 63: 358-363.
Year 2012, Volume: 1 Issue: 2, 187 - 197, 27.03.2016

Abstract

References

  • Aigbodion VS and Hassan SB. Effects of silicon carbide reinforcement on microstructure and properties of cast Al-Si-Fe/SiC particulate composites. Journal of Materials Science and Engineering A, 2007; 447: 355 – 360.
  • Aigbodion VS. Potential of using bagasse ash particle in metal matrix composite, PhD Dissertation, Department of Metallurgical and Materials Engineering, Ahmadu Bello University, Samaru, Zaria, Nigeria, 34 – 50, 2010.
  • Siva Prasad D and Rama Krishna A. Production and mechanical properties of A356.2 /RHA composites. International Journal of Advanced Science and Technology, 2011; 33: 51 – 58.
  • Arun Kumar MB and Swamy RP. Evaluation of mechanical properties of Al6061, flyash and e-glass fiber reinforced hybrid metal matrix composites. ARPN Journal of Engineering and Applied Sciences, 2011; 6(5): 40 – 44.
  • Rohatgi PK, Rajan TPD, Pillai RM, Pai BC and Satyanarayana KG. Fabrication and characterization Al–7Si–0.35Mg/fly ash metal matrix composites processed by different stir casting routes. Composites Science and Technology, 2007; 67, 3369 – 3377.
  • Aigbodion VS. Particulate-strengthened of Al-Si alloy/alumino-silicate composite materials science and Engineering A, 2007: 460 – 461, 574 – 578.
  • Bienia J, Walczak M, Surowska B and Sobczaka J. Microstructure and corrosion behaviour of aluminium fly ash composites. Journal of Optoelectronics and Advanced Materials, 2003; 5(2), 493 – 502.
  • Naresh P. Development and characterization of metal matrix composite using red Mud an industrial waste for wear resistant applications, PhD Thesis, Department of Mechanical Engineering, National Institute of Technology Rourkela, India, 23 – 34, 2006.
  • Guo RQ, Rohatgi PK and Nath D. Compacting characteristics of aluminium-fly ash powder mixtures. Journal of Materials Science, 1996; 31, 5513 – 5519.
  • Guo RQ, Rohatgi PK and Ray S. Casting characteristics of aluminium alloy, fly ash composites. Transactions of the American Foundrymen’s Society, 1996; 104: 1097 – 1102.
  • Rohatgi PK and Guo RQ. Low Cost Cast Aluminium – fly ash composites for ultralight automotive application. TMS Annual Meeting, Automotive Alloys, 157- 168, 1997.
  • Rohatgi PK. Low-cost, fly ash containing aluminium matrix composites. JOM, 1994; 29: 55 – 59.
  • Rohatgi PK, Guo RQ and Keshavaram BN. Cast aluminium alloy – fly ash composites. Key Engineering Materials, 1995; 104-107: 283 – 292.
  • Rohatgi PK, Guo RQ, Iksan. H, Borchelt EJ and Asthana R. Pressure infiltration technique for synthesis of aluminium-fly ash particulate composite. Metallurgical & Materials Transaction A, 1997; 244: 22 – 30.
  • Zhou W and Xu ZM. Casting of SiC reinforced metal matrix composites. J. Materials Proc. Technol., 1997; 63: 358-363.
There are 15 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Victor Sunday Aigbodion - This is me

Publication Date March 27, 2016
Published in Issue Year 2012 Volume: 1 Issue: 2

Cite

APA -, V. S. A. (2016). Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method. Usak University Journal of Material Sciences, 1(2), 187-197.
AMA - VSA. Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method. Usak University Journal of Material Sciences. March 2016;1(2):187-197.
Chicago -, Victor Sunday Aigbodion. “Development of Al-Si-Fe/Rice Husk Ash Particulate Composites Synthesis by Double Stir Casting Method”. Usak University Journal of Material Sciences 1, no. 2 (March 2016): 187-97.
EndNote - VSA (March 1, 2016) Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method. Usak University Journal of Material Sciences 1 2 187–197.
IEEE V. S. A. -, “Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method”, Usak University Journal of Material Sciences, vol. 1, no. 2, pp. 187–197, 2016.
ISNAD -, Victor Sunday Aigbodion. “Development of Al-Si-Fe/Rice Husk Ash Particulate Composites Synthesis by Double Stir Casting Method”. Usak University Journal of Material Sciences 1/2 (March 2016), 187-197.
JAMA - VSA. Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method. Usak University Journal of Material Sciences. 2016;1:187–197.
MLA -, Victor Sunday Aigbodion. “Development of Al-Si-Fe/Rice Husk Ash Particulate Composites Synthesis by Double Stir Casting Method”. Usak University Journal of Material Sciences, vol. 1, no. 2, 2016, pp. 187-9.
Vancouver - VSA. Development of Al-Si-Fe/Rice husk ash particulate composites synthesis by double stir casting method. Usak University Journal of Material Sciences. 2016;1(2):187-9.