Biomedical Engineering Reference
In-Depth Information
Kozerski, S., Pawlowski L., Jaworski, R., Roudet, F., and Petlt, F. 2010. Two zones microstructure of
suspension plasma sprayed hydroxyapatite coatings.
Surf. Coat. Technol.
204: 1380-1387.
Krauser, J.T. and Berthold, P. 1991. A scanning electron microscopy study of failed root from dental
implant.
J. Dental Res.
70: 274-281.
Kreye, H., Fandrich, D., and Muller, H.-H. 1986. Microstructure and bond strength of WC-Co coat-
ings deposited by hypersonic flame spraying (Jet-Kote process).
Proc. 11th ITSC Montreal,
pp.
121-128.
Kumar, R., Cheang, P., and Khor, K. A. 2003. Radio frequency (RF) suspension plasma sprayed ultra-
fine hydroxyapatite (HA)/zirconia composite powders.
Biomaterials
24: 2611-2621.
Kurzweg, H., Heimann, R.B., Troczynski, T., and Wayman, W.L. 1998. Development of plasma-
sprayed bioceramic coatings with bond coats based on titania and zirconia.
Biomaterials
19:
1507-1511.
Kweh, S.W.K. 2000. Thermal spraying of bioceramics (HA) coatings. Masters in Engineering. School
of Mechanical and Production Engineering. Nanyang Technological University.
Kwong, C.H., Burns, W.B., and Cheung, H.S. 1989. Solubilization of hydroxyapatite crystals by
marine bone cells, macrophages and fibroblasts.
Biomaterials
10: 579-584.
Labat, B., Chamson, A., and Frey, J. 1995. Effects of r-alumina and hydroxyapatite coatings on the
growth and metabolism of human osteoblasts.
J. Biomed. Mater. Res.
29: 1397-1401.
Lamy, D., Pierre, A.C., and Heimann, R.B. 1996. Hydroxyapatite coatings with a bond coat of bio-
medical implants by plasma projection.
J. Mater. Res.
11: 680-686.
Laurent, P., Ducasse, P., and the ESSOR Group. 1999. Case reports: Total cementless knee prosthesis
with hydroxyapatite coating: Results with the Alienor prosthesis after more than 6 years.
Eur.
J. Orthop. Surg. Traumatol
. 9: 119-121.
Lausmaa, J., Ask, M., and Rolnnder, U. 1989. Preparation and analysis of Ti and alloyed Ti surfaces
used in the evaluation of biological response. In: Hamker, J.S. and Giammara, B.L. (eds.),
Biomedical Materials and Devices.
110: 647-653.
Lausmaa, J., Mattsson, L., and Rolander, U. 1986. Chemical composition and morphology of titanium
surface oxides.
Biomed. Mater.
55: 351-359.
Leguillon, D. 1997. Influence of micro-voids on toughness of interfaces. In: Rossmanith, H.P. (ed.),
Damage and Failure of Interface.
Balkema, Rotterdam, pp. 113-120.
Leigh, S.H., Lin, C.K., and Berndt, C.C. 1997. Elastic response of thermal spray deposits under inden-
tation tests.
J. Am. Ceram. Soc.
80: 2093-2099.
Lewis, G. and Mcvay, B. 1998. Effect of thermal spray process for depositing hydroxyapatite coating
on a titanium alloy on its fatigue performance.
Proc. 17th Southern Biomedical Engineering Conf.
,
pp. 119.
Li, C.J., Ohmori, A., and McPherson, R. 1997. Relationship between microstructure and Young's
modulus of thermally sprayed ceramic coatings.
J. Mater. Sci.
32: 997-1004.
Li, H. 2002. HVOF spraying of hydroxyapatite and hydroxyapatite/titania composites, PhD thesis,
Nanyang Technological University, Singapore.
Li, H. 2004. unpublished data.
Li, H. and Khor, K.A. 2006. Characteristics of the nanostructures in thermal sprayed hydroxyapatite
coatings and their influence on coating properties
. Surf. Coat. Technol.
201: 2147-2154.
Li, H., Khor, K.A., and Cheang, P. 2000. Effect of the powders' melting state on the properties of
HVOF sprayed hydroxyapatite coatings.
Mater. Sci. Eng. A
293: 71-80.
Li, H., Khor, K.A., and Cheang, P. 2002a. Properties of heat treated calcium phosphate coatings
deposited by high velocity oxy-fuel (HVOF) spray.
Biomaterials
23: 2015-2112.
Li, H., Khor, K.A., and Cheang, P. 2002b. Titanium dioxide reinforced hydroxyapatite coatings depos-
ited by high velocity oxy-fuel (HVOF) spray.
Biomaterials
23: 85-91.
Li, H., Khor, K.A., and Cheang, P. 2003. Impact formation and microstructure characterization of
thermal sprayed hydroxyapatite/titania composite coatings.
Biomaterials
24: 949-957.
Li, H., Khor, K.A., and Cheang, P. 2004a. Thermal sprayed hydroxyapatite splats: Nanostrucures,
splat formation mechanisms and TEM characterization.
Biomaterials
25: 3463-3471.
Search WWH ::
Custom Search