Biomedical Engineering Reference
In-Depth Information
Corbiere, N. T., Gfeller, L. B., Lundquist, L.,
Leterrier, Y., Manson, J. A. E., and Jolliet, O.
(2001). Life cycle assessment of biofibers re-
placing glass fibers as reinforcement in plastics.
Resources,Conservation and Recycling
33
(4),
267-287.
El-Tayeb, N. S. M. (2008a). A study on the po-
tential of sugarcane fibers/polyester composite
for tribological applications.
Wear
265
(1-2),
223-235.
El-Tayeb, N. S. M. (2008b). Abrasive wear per-
formance of untreated SCF reinforced polymer
composite.
Journal of Materials Processing
Technology
206
(1-3), 305-314.
Gowda, T. M., Naidu, A. C. B., and Rajput, C.
(1999).
Some mechanical properties of untreat-
ed jute fabric-reinforced polyester composite
30
(3), 277-284.
Hashmi, S. A. R., Dwivedi, U. K., and Chand,
N. (2007). Graphite modified cotton fiber rein-
forced polyester composites under sliding wear
conditions.
Wear
262
(11-12), 1426-1432.
Huda, M. S., Drzal, L. T., Mohanty, A. K., and
Misra, M. (2008). Effect of fiber surface-treat-
ments on the properties of laminated biocompos-
ites from poly(lactic acid) (PLA) and kenaf fi-
bers.
Composites Science and Technology
68
(2),
424-432.
Joshi, S. V., Drzal, L. T., Mohanty, A. K., and
Arora, S. (2004). Are natural fiber composites
environmentally superior to glass fiber rein-
forced composites?
Composites Part A: Applied
Science and Manufacturing
35
(3), 371-376.
Liu, G., Chen, Y., and Li, H. (2004). A study on
sliding wear mechanism of ultrahigh molecu-
lar weight polyethylene/polypropylene blends.
Wear
256
(11-12), 1088-1094.
Navin, C. and Dwivedi, U. K. (2006). Effect
of coupling agent on abrasive wear behavior
of chopped jute fiber-reinforced polypropylene
composites.
Wear
261
, 1057-1063.
Nirmal, S. G. and Yousif, B. F. (2009). Wear
and frictional performance of betelnut fiber-
reinforced polyester composite.
Proceedings of
the Institution of Mechanical Engineers, Part
J: Journal of Engineering Tribology
223
(2),
183-194.
Nishino, T., Hirao, K., Kotera, M., Nakamae, K.,
and Inagaki, H. (2003). Kenaf reinforced bio-
degradable composite.
Composites Science and
Technology
63
(9), 1281-1286.
Pothan, L. A., Oommen, Z., and Thomas, S.
(2003). Dynamic mechanical analysis of banana
fiber reinforced polyester composites.
Compos-
ites Science and Technology
63
(2), 283-293.
Sınmazcelik, T. and Yılmaz, T. (2007). Thermal
aging effects on mechanical and tribological
performance of PEEK and short fiber reinforced
PEEK composites.
Materials & Design
28
, 641-
648.
Sumer, M., Unal, H., and Mimaroglu, A. (2008).
Evaluation of tribological behaviour of PEEK
and glass fiber reinforced PEEK composite un-
der dry sliding and water lubricated conditions.
Wear
265
(7-8), 1061-1065.
Thomas, B., Hadfield, M., and Austen, S. (2009).
Wear observations applied to lifeboat slipway
launches.
Wear
267
(11), 2062-2069.
Tong, J., Arnell, R. D., and Ren, L. Q. (1998).
Dry sliding wear behaviour of bamboo.
Wear
221
(1), 37-46.
Tong, J., Ma, Y., Chen, D., Sun, J., and Ren, L.
(2005). Effects of vascular fiber content on abra-
sive wear of bamboo.
Wear
259
(1-6), 78-83.
Wambua, P., Ivens, J., and Verpoest, I. (2003).
Natural fibers: can they replace glass in fibers re-
inforced plastics?
Composites Science and Tech-
nology
63
, 1259-1264.
Wu, J. and Cheng, X. H. (2006). The tribological
properties of Kevlar pulp reinforced epoxy com-
posites under dry sliding and water lubricated
condition.
Wear
261
(11-12), 1293-1297.
Yamamoto, Y. and Takashima, T. (2002). Fric-
tion and wear of water lubricated PEEK and PPS
sliding contacts.
Wear
253
(7-8), 820-826.
Yousif, B. F. (2008). Frictional and wear per-
formance of polyester composites based on coir
fibers.
Proc. IMechE, Part J: J. Engineering Tri-
bology
223
(1), 51-59.
Yousif, B. F. and El-Tayeb, N. S. M. (2007a).
The effect of oil palm fibers as reinforcement on
tribological performance of polyester composite.
Surface Review and Letters
14
(6), 1-8.
Yousif, B. F. and El-Tayeb, N. S. M. (2007b).
Tribological evaluations of polyester compos-
ites considering three orientations of CSM glass
Search WWH ::
Custom Search