A. Ramesh, J. N. Prakash, A. S. Shiva Shankare Gowda, Sonnappa Appaiah
Department of Industrial Engineering and Management, M.S.R.I.T,Bangalore-560 075, INDIA.
Department of Mechanical Engineering, Alpha College of Engineering Bangalore-562149, INDIA.
Dr.M.G.R Educational and Research Institute,Chennai-600 095, INDIA.
DOI: 10.4236/jmmce.2009.82009   PDF    HTML     9,008 Downloads   12,033 Views   Citations

Abstract

The aim of this present investigation is to carry out a comparative study of the mechanical properties of AL6061/Albite composites containing albite(NaAlSi₃O₈) particulates, which are naturally occurring plagioclase feldspar and AL6061/graphite particulate composites containing graphite particles. The reinforcing particulates in the MMC’s vary from 0% to 4% by weight. The 'vortex method' of production was employed to fabricate the composites, in which the reinforcements were poured into the vortex created by stirring the molten metal by means of a mechanical agitator. The composites so produced were subjected to a series of tests. The results of this study revealed that as the Albite particle content was increased, there were significant increases in the ultimate tensile strength, hardness and Young's modulus, accompanied by a reduction in its ductility. There was, however, only a very marginal increase in the compressive strength, where as in graphite reinforced composites as the graphite content was increased, there were significant reduction in hardness and monotonic increases in the ductility, ultimate tensile strength (UTS), compressive strength and Young's modulus of the composite, An attempt is made in the paper to provide explanations for these phenomena.

Keywords

Aluminium alloys; Albite; Graphite; Composites; Mechanical properties

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Everett, R.K and Arsenault, R.J. Metal Matrix Composites: Mechanisms and Properties, 1991 (Academic Press, San Diego).
[2]	Kocjak, M.J., Kahtri, S.C.,Allison, J.E and Jones, J.W. Fundamentals of Metal Matrix Composites (Ed S.Suresh, A.Mortensen and A.Needleman, 1993 (Butterworth-Heinemann, Boston.
[3]	Lloyd, D.J. and Brotzen, F.R. Particle reinforced aluminium and Mg matrix composites. Int. Mater.Rev; 1994, 39,1-39.
[4]	Lei, M. and Ledbetter, H. Communications: elastic constants of SiCp/Al: measurements and modeling. Metall. Mater. Trans., 1994, 25A, 2832-2835.
[5]	Vogelsang, M., Arsenault, R. J. and Fisher, R. M. In-situ HVEM study of dislocation generation at Al/SiC interfaces. Metall. Trans. A, 1986, 17, 379.
[6]	Pai, B. C., Ray, S., Prabhakar, K. V. and Rohatgi, P. K. Fabrication of aluminium-alumina (magnesia) particulate composites in foundries using magnesium additions to the melts. Mater. Sci. Engng, 1976,24,31.
[7]	Sato, A. and Mehrabian, R. Aluminium matrix composites: fabrication and properties. Metall. Trans. B, 1976, 7, 443.
[8]	Biswas, S., Santharam, A., Rao, N.A.P, Narayanaswamy, K ., Rohatgi, P. and Biswas, S. K. Tribology International 1980, 8, 171.
[9]	Pai, B. C., Pillai, R.M. and Sathyanarayana, K. G, Prospects for graphite aluminium composites in engineering industries. Indian Journal of Engineering and Materials Science 1994, 1, October, 279
[10]	Krishnan, B.P., Raman, N., Narayanaswamy, K and Rohtagi, P.K. Wear, 1980,60,1
[11]	Bragg, W. L. Introduction to Crystal Analysis, Bell and Son, London, 1928, p. 64
[12]	PiIlai, U. T. S., Pandey, R. K. and Nagam, K. D. P. Deformation and fracture of aluminium graphite and aluminium zircon particulate composites. Proc of the 5th International Conference on Composite Materials. TMS Publications, 1985, p. 895
[13]	Awerbuch, J., Goering, J. and Busking, K. In Mini Mechanics Analysis and Testing of Short Fibre Composites: Experimental Methods and Results, Vol. 121, 1988. p.964 (American Society for Testing and Materials, Philadelphia. Pennsylvania).
[14]	Smith, W. F. Structure and Properties of Engineering Alloys, 2nd edn, McGraw-Hill, New York, 1993, p. 566
[15]	Badia, F. A., McDonald, D. F. and Pearson, J. R. Trans. AFS 1971, 79, 269
[16]	Biswas, S., Dwarakadasa, E. and Biswas, S. K. Bearings and wear properties of cast graphite aluminium composites. Proc. of All India Seminar on Aluminium, 1979
[17]	Pillai, U. T. S. and Pandey, R. K. Studies on mechanical behaviour of cast and forged aluminium graphite particle composites. Journal of Composite Materials 1989, 23, February, 108
[18]	Dieter, G. E. Mechanical Metallurgy, SI metric edition, McGrawHill, New York, 1988, pp. 212-19
[19]	Callister, W. D. Jr Materials Science and Engineering: An Introduction, 2nd edition, John Wiley, New York, 1991, p. 536.
[20]	Ghosh, P. K. and Ray, S. J. Mater. Sci., 1986, 21, 1167.
[21]	McCoy, J. M., Prones, C. and Warner, F. E. 1. Mater. Sci., 1988, 1, 37.
[22]	Rohatgi, P. K., Ray, S. and Lin, Y. Tribological properties of metal matrix graphite particle composites. International Materials Review, 1992, 37, No.3, 129
[23]	K.H.W Seah ., S.C.Sharma., B.M.Girish , Mechanical properties of cast ZA-27/graphite particulate composites , Materials and Design, 1995,16, 271- 275
[24]	Zhu, H. X. and Liu, S. K. Mechanical properties of squeeze cast zinc alloy matrix composites containing alpha-alumina fibers. Composites, 1993, 24(6), 437.
[25]	Sood, J., Tiwari, A. N. and Teredesai, A. TiC-reinforced Al matrix composites. In Proceedings of Second International Conference on Aluminium INCAL-91, 31 July-2 August 1991, pp. 781-785 (Aluminium Association, Bangalore, India).
[26]	Sanders, B. R. and Weintraub, T. L. (Eds) ASM Handbook, Vol. 8, Mechanical Testing, 1995, p. 84 (American Society of Metals, Philadelphia, Pennsylvania).
[27]	McDanels, D. L. Analysis of stress-strain, fracture and ductility behaviour of aluminium matrix composites containing discontinuous SiC reinforcement. Metall. Trans. A, 1985, 16, 1105-1115.
[28]	Hoskings, F. M., Portillo, F. F., Wunderlin, R. and Mehrabian, R. Composites of Al-alloys: fabrication and wear behavior. J. Mater. Sci., 1982, 17,477--498.
[29]	Beitz, W. and Kuttner, K. H. (Eds) Dubbel Handbook of Mechanical Engineering, 1994, p. D8 (Springer-Verlag, London).
[30]	Mummery, P. M., Derby, B. and Scruby, C. B. Acoustic emission from particulate reinforced metal matrix composites. Acta Metall., 1993,41,1431.
[31]	Webster, D. Metall. Trans. A, 1982, 13A, 511.
[32]	Towle, D. J. and Fried, C. M. Comparison and compressive and tensile properties of Mg based MMCs. J. Mater. Sci. Technol., January 1993, 9, 35--41.