An Experimental Study of Effect of Silicon Carbide on Mechanical Properties of Aluminium Based Composite

  • Dombale Sachin Namdeo
  • Gadave Subhash
  • Vishal Jagadale
Conference paper


Enormous research is going on Aluminum Metal Matrix composite material because of wide applications Automobile, Aerospace, Ship and so forth. In the current modern situation, composite material has a ton of extension because of its enhanced mechanical properties like hardness, sturdiness, compressive quality and elasticity. Traditional solid materials have restrictions as for the composite material as far as tribological properties. The composite substance has two characteristic stages as matrix and reinforcement. The aluminum composite A356 can possibly fill in as grid material due to its low softening point, great weld ability, cast ability, just as consumption obstruction. In the present examination, it is discovered that in tribological properties, when the fortification % builds wear of composite material reductions. At the point when the heap expands wear in micron of composite material increments. At the point when the speed expands wear in micron of composite material increments.


A356 Metal matrix composite Reinforcement Matrix Wear 


  1. 1.
    Ahlatc H, Kocer T, Candan E, Cimenoglu H (2006) Wear behaviour of Al/(Al2O3pCSiCp) hybrid composites. Tribol Int 39:213–220CrossRefGoogle Scholar
  2. 2.
    Narasimha GB, Krishna MV, Sindhu R (2014) Prediction of Wear behaviour of Almg1sicu hybrid MMC using Taguchi with Grey rational analysis. Procedia Eng 97:555–562CrossRefGoogle Scholar
  3. 3.
    Suvarna Raju L, Kumar A (2014) Influence of Al2O3 particles on the microstructure and mechanical properties of copper surface composites fabricated by friction stir processing. Def Technol 10:375–383CrossRefGoogle Scholar
  4. 4.
    Siddhartha Prabhakar N, Radhika N, Raghu R (2014) Analysis of tribological behavior of aluminium/B4C composite under dry sliding motion. Procedia Eng 97:994–1003CrossRefGoogle Scholar
  5. 5.
    Umanath K, Selvamani ST, Palanikumar K, Sabarikreeshwaran R (2014) Dry sliding Wear behaviour of AA6061-T6 reinforced SiC andAl2O3 particulate hybrid composites. Procedia Eng 97:694–702CrossRefGoogle Scholar
  6. 6.
    Padmavathi KR, Ramakrishnan DR (2014) Tribological behaviour of aluminium hybrid metal matrix composite. Procedia Eng 97:660–667CrossRefGoogle Scholar
  7. 7.
    Rajesh S, Krishna AG, Raju PRM, Duraiselvam M (2014) Statistical analysis of dry sliding wear behavior of graphite reinforced aluminum MMCs. Procedia Mater Sci 6:1110–1120CrossRefGoogle Scholar
  8. 8.
    El-Sayed AA, El-Sherbiny MG, Abo-El-Ezz AS, Aggag GA (1995) Friction and wear properties of polymeric composite materials for bearing applications. Wear 184:45–53CrossRefGoogle Scholar
  9. 9.
    Ramesh CS, Keshavamurthy R, Channabasappa BH, Pramod S (2010) Friction and wear behavior of Ni–PcoatedSi3N4 reinforced Al6061composites. Tribol Int 43:623–634CrossRefGoogle Scholar
  10. 10.
    Jha N, Badkul A, Mondal DP, Das S, Singh M (2011) Sliding wear behaviour of aluminum syntactic foam: a comparison with Al–10 wt% SiC composites. Tribol Int 44:220–231CrossRefGoogle Scholar
  11. 11.
    Wangikar SS, Patowari PK, Misra RD (2017) Effect of process parameters and optimization for photochemical machining of brass and German silver. Mater Manuf Process 32(15):1747–1755CrossRefGoogle Scholar
  12. 12.
    Wangikar SS, Patowari PK, Misra RD (2018) Parametric optimization for photochemical machining of copper using overall evaluation criteria. Mat Today Proceed 5(2):4736–4742CrossRefGoogle Scholar
  13. 13.
    Wangikar SS, Patowari PK, Misra RD (2016, December) Parametric optimization for photochemical machining of copper using grey relational method. In: Techno-societal 2016, international conference on advanced technologies for societal applications. Springer, Cham, pp 933–943Google Scholar
  14. 14.
    Dombale SN, Gaikwad MU (2015) An experımental study on effect of mechanıcal properties of aluminium composite reınforced with silicon carbide. Int J Technol Res Eng 2(11)Google Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  • Dombale Sachin Namdeo
    • 1
  • Gadave Subhash
    • 2
  • Vishal Jagadale
    • 3
  1. 1.Ph.D. Scholar & Assitsant ProfessorPimpariIndia
  2. 2.Assistant Professor D.Y. Patil, PimpariPimpariIndia
  3. 3.Assistant Professor MIT College of Railway Engineering and ResearchBarshiIndia

Personalised recommendations