作者：Susan Krumdieck;Vilailuck Siriwongrungson;Ben Reyngoud;Anne Barnett;

作者单位：Prof. S. Krumdieck, V. Siriwongrungson, B. Reyngoud, A. Barnett Department of Mechanical Engineering, University of Canterbury Private Bag 4800, Christchususan.krumdieck@canterbury.ac.nzrch 8041 (New Zealand);Department of Mechanical Engineering, Universi

刊名：Chemical vapor deposition

ISSN：0948-1907

出版年：2010-01-05

卷：16

期：40911

起页：15

止页：18

分类号：TQ175

语种：英文

关键词：Specimens;Bio-integration;Pulsed-Pressure;

内容简介

The bio-integration and biocompatibility of metal bone implants is improved by porous surface topography and bio-ceramic layers.[1,2] Implant surface material bioactivity affects the rate and quality of new cell formation and determines the adsorption, attachment, and alignment of molecules both in-vivo and in-vitro.[3] Biocompatibility refers to the long-term durability, and the rate and quality of bone growth while maintaining the mechanical properties of the implant.[4] In practice, sandblasting is used to roughen the metal surface and plasma spraying to deposit an oxide layer.[5,6] Other techniques for bio-active oxide layer deposition have been investigated, including sol-gel,[7] electrophoretic deposition,[8] and CVD.[9]