[1]
|
ASM Hand book, 1992, Materials Park, Ohio, USA, ASM International, Volume 18.
|
[2]
|
Pascoe, M.W., 1973, “Plain and filled plastics materials in bearing: a review.”
Tribology, Vol. 6 No. 5, pp. 184-190.
|
[3]
|
Sung, N.H., and Suh, N.P., 1979, “Effect of Fiber orientation on friction and wear of
fiber reinforced polymeric composites.” Wear, Vol. 53, pp. 129-141.
|
[4]
|
Chang, H.W., 1983, “Wear characteristics of composite: effect of fiber orientation.”
Wear, Vol. 85, No. 1, pp. 81-91.
|
[5]
|
Suresha, B., Chandramohan, G., Samapthkumaran, P., Seetharamu, S., and Vynatheya, S., 2006, “Friction and wear characteristics of carbon-epoxy and glassepoxy woven roving fiber composites.” Journal of Reinforced Polymers and composites, Vol. 25, pp. 771-782.
|
[6]
|
Bijwe, J., Tewari, U.S., and Vasudevan, P., 1989 “Friction and wear studies of short
glass fiber reinforced polythermide composite.” Wear, Vol. 132, pp. 247-264.
|
[7]
|
Viswanth, B., Verma, A.P., and Rao, C.V.S.K., 1991, “Effect of fiber geometry on
friction and wear of glass fiber-reinforced composites.” Wear, Vol. 145, pp. 315-327.
|
[8]
|
Tripaty, B.S., Furey, M.J., 1993, “Tribological behaviour unidirectional graphiteepoxy
and carbon -PEEK composites. Wear, Vol. 162-164, pp. 385-396.
|
[9]
|
EI-Sayed, A.A, EI-Sherbiny, M.J., Abo-EI-Ezz, A.S., Aggag, G.A., 1995, “Friction
and wear properties of polymeric composite materials for bearing applications.”
Wear, Vol. 184, pp. 45-53.
|
[10]
|
Cirino, M., Friedrich, K., and Pipes, R.B., 1988, “The effect of fiber orientation on
the abrasive wear behaviour of polymer composite materials.” Wear, Vol. 121, pp.127-141.
|
[11]
|
Lancaster, J. K., 1972, “Lubrication of carbon fiber-reinforced polymers : Part II—
Organic fluids.” Wear, Vol. 20, No. 3, pp. 335-351.
|
[12]
|
Briscoe, B. J., Pogosion, A. K., and Tabor, D., 1974, “The friction and wear of high
Density polyethylene; the action of lead oxide and copper oxide fillers.” Wear, Vol.27, pp. 19-34.
|
[13]
|
Tanaka, K., 1986, Effect of various fillers on the friction and wear of PTFE-based
composites, In: Friction and Wear of Polymer composites, Volume 205, pp. 137-174,
(Friedrich K editor), Elsevier, Amsterdam.
|
[14]
|
Bahadur, S., Fu, Q., and Gong, D., 1994, “The effect of reinforcement and the
synergism between CuS and carbon fiber on the wear of nylon.” Wear, Vol. 178, pp.123-130.
|
[15]
|
Bahadur, S., and Tabor, D., 1985, Role of fillers in friction and wear behaviour of
HDPE In: Polymer wear and its control, Volume 287-268 (L.H. Lee (ed.) ACM symposium series, Washington DC.
|
[16]
|
Bahadur, S., Gong, D., Anderegg, J. W., 1992 “The role of copper composites as
fillers in the transfer film formation and wear of Nylon.” Wear, Vol. 154, pp. 207-223.
|
[17]
|
Kishore, Sampathkumaran, P., Seetharamu, S., Vynatheya, S., Murali, A., Kumar, R.
K., 2000, “SEM observations of the effect of velocity and load on the slide wear
characteristics glass-fabric-epoxy composites with different fillers.” Wear, Vol. 237,
pp. 20-27.
|
[18]
|
Kishore, Sampathkumaran, P., Seetharamu. S., Thomas, P., Janardhana, M. A.,
2005, “Study on the effect of the type and content of filler in epoxy-glass composite
system on the friction and wear characteristics.” Wear Vol. 259, pp. 634-641.
|
[19]
|
Wang, J., Gu, M., Songhao, Ge, S., 2003, “The role of the influence of MoS2 on the
tribological properties of carbon fiber reinforced Nylon 1010 composites.” Wear,
Vol. 255, pp. 774-779.
|
[20]
|
Basavarajappa, S., Chandramohan, G. C., 2005, “Wear studies on metal matrix
composites: A Taguchi Approach.” J. of Materials Sci. and Tech., Vol. 21, No. 6, pp.
348-350.
|
[21]
|
Viswanath, B., Verma, A. P., and Kameswara Rao, C. V. S., 1992, “Effect of matrix
content on strength and wear of woven roving glass polymeric composites.” Comp
Sci Tech., Vol. 44 pp. 77-86.
|
[22]
|
Mody, P. B., Chou, T. W., Friedrich, K., 1988, “Effect of testing conditions and
microstructure on the sliding wear of graphite fiber/PEEK matrix composites.” J.
Mater. Sci., Vol. 23, pp. 4319-4330.
|
[23]
|
Annual hand book of ASTM standards, Section 3,03,02, ASTM G-99 (1995),
Phildelphia, USA.
|