Biomedical Engineering Reference
In-Depth Information
Best, S., Sim, B., Kayser, M., and Downes, S. 1997. The dependence of osteoblstic response on vari-
ations in the chemical composition and physical properties of hydroxyapatite. J. Mater. Sci.:
Mater. Med. 8: 97-103.
Bianchi, L., Leger, A.C., Vardelle, M., Vardelle, A., and Fauchais, P. 1997. Thin Solid Films 305: 35.
Bioceramics Workshop. 1999. Public discussion. October, 1999, Singapore.
Black, J. 1999. Biological Performance of Materials, Fundamentals of Biocompatibility . Third Edition,
Revised and Expanded. Marcel Dekker, Inc.
Blum, J., Eckert, K.-L., Schroeder, A., Petitmermet, M., Ha, S.-W., and Wintermantel, E. 1996. In vitro
testing of porous titanium dioxide ceramics. In: Kokubo, T., Nakamura, T., and Miyaji, F. (eds.),
Bioceramics , Volume 9, Proceedings of the 9th International Symposium on Ceramics in Medicine ,
Utsu, Japan, November 1996, pp. 89-92.
Bonfield, W. 1987. New trends in implant materials. In: Pizzoferrato, A., Marchetti, P.G., Ravaglioli,
A., and Lee, A.J.C. (eds.), Biomaterials and Clinical Applications , Proceedings of the Sixth Conference
for Biomaterials , Bologna, Italy, pp. 13-21.
Brown, S.R. and Turner, I.G. 1998. Acoustic emission analysis of thermal sprayed hydroxyapatite
coatings examined under four point bend loading. Surf. Eng. 14: 309-313.
Brown, S.R., Turner, I.G., and Reiter, H. 1994. Residual stress measurement in thermal sprayed
hydroxyapatite coatings. J. Mater. Sci. Mater. Med. 5: 756-759.
Callus, P.J. and Berndt, C.C. 1999. Relationships between the mode II fracture toughness and micro-
structure of thermal spray coatings. Surf. Coat. Technol. 114: 114-128.
Campbell, A.A., Fryxell, G.E., Linehau, J.C., and Graff, G.L. 1996. Surface-induced mineralization: A
new method for producing calcium phosphate coatings. J. Biomed. Mater. Res. 32: 111-118.
Cao, Y., Weng, J., Chen, J., Feng, J., Yang, Z., and Zhang, X. 1996. Water vapour-treated hydroxyapa-
tite coatings after plasma spraying and their characteristics. Biomaterials 17: 419-424.
Carey, L.E., Xu, H.H.K., Simon, C.G., Takagi, S., and Chow, L.C. 2005 . Premixed rapid-setting calcium
phosphate composites for bone repair. Biomaterials 26: 5002-5014.
Champion, E., Gautier, S., and Bernache-Assollant, D. 1996. Characterization of hot pressed Al 2 O 3 -
platelet reinforced hydroxyapatite composites. J. Mater. Sci.: Mater. Med. 7: 125-130.
Chang, E., Chang, W.J., Wang, B.C., and Yang, C.Y. 1997. Plasma spraying of zirconia-reinforced
hydroxyapatite composite coatings on titanium: Part II. Dissolution behavior in simulated
body fluid and bonding degradation. J. Mater. Sci.: Mater. Med. 8: 201-211.
Charalambides, P.G., Lund, J., Evans, A.G., and McMeeking, R.M. 1989. A test specimen for deter-
mining the fracture resistance of biomaterial interfaces. J. Appl. Mech. 56: 77-82.
Cheang, P. and Khor, K.A. 1995. Bioceramic powders and coatings by thermal spray techniques. Proc.
of ITSC '95, Kobe, May 1995, pp. 181-186.
Cheang, P. and Khor, K.A. 1996a. Addressing processing problems associated with plasma spraying
of hydroxyapatite coatings. Biomaterials 17: 537-544.
Cheang, P. and Khor, K.A. 1996b. Properties and microstructure of plasma sprayed hydroxyapatite
coatings produced with different powder feedstocks. In: Sudarsan, T.S., Khor, K.A., and Jeandin,
M. (eds). Proceedings of the Tenth International Conference on Surface Modification Technologies ,
Singapore, pp. 747-758.
Chraska, T. and King, A.H. 2001. Transmission electron microscopy study of rapid solidification of
plasma sprayed zirconia—Part I. First splat solidification. Thin Solid Films 397: 30-39.
Chraska, T. and King, A.H. 2002. Effect of different substrate conditions upon interface with plasma
sprayed zirconia—A TEM study. Surf. Coat. Technol. 157: 238-246.
Chung, H.G.P., Swain, M.V., and Mori, T. 1997. Evaluation of the strain energy release rate for the
fracture of titanium-porcelain interfacial bonding. Biomaterials 18: 1553-1557.
Cleries, L., Fernandez-Pradas, J.M., Sardin, G., and Morenza, J.L. 1998 . Dissolution behaviour of cal-
cium phosphate coatings obtained by laser ablation . Biomaterials 19: 1483-1489.
Cleries, L., Fernandez-Pradas, J.M., and Morenza, J.L. 2000. Behavior in simulated body fluid of cal-
cium phosphate coatings obtained by laser ablation . Biomaterials 21: 1861-1865.
Clyne, T.W. and Gill, S.C. 1996. Residual stresses in thermal spray coatings and their effect on inter-
facial adhesion: A review of recent work. J. Therm. Spray Technol. 5: 401-418.
Search WWH ::




Custom Search