Alumina coatings by plasma spraying of monosize sapphire particles |
| |
Authors: | L. C. Erickson T. Troczynski H. M. Hawthorne H. Tai D. Ross |
| |
Affiliation: | (1) Metals and Materials Engineering, University of BC, Vancouver, BC, Canada;(2) Present address: Ballard Power Systems, Burnaby, B.C., Canada;(3) Tribology Group, National Research Council Canada, Vancouver, BC, Canada;(4) Northwest Mettech Corporation, Richmond, BC, Canada |
| |
Abstract: | A series of plasma sprayed coatings of controlled microstructure was obtained by spraying three monosize sapphire powders using an axial injection torch in which the plasma gas composition and nozzle diameter were the only processing parameters varied. The effects of changes in these parameters on the coating splat morphology, porosity, angular crack distribution, and hardness are reported. The uniform, dense microstructure and the high hardness of 14 GPa (a level usually only associated with chromia thermal spray coatings) of the best alumina coatings resulted from using tightly controlled processing conditions and monodispersed precursor powders. The microstructural quality of plasma sprayed coatings and, hence, the coating properties can be improved significantly by minimizing variations in processing and raw material parameters. This paper originally appeared in Thermal Spray: Meeting the Challenges of the 21st Century; Proceedings of the 15th International Thermal Spray Conference, C. Coddet, Ed., ASM International, Materials Park, OH, 1998. This proceedings paper has been extensively reviewed according to the editorial policy of the Journal of Thermal Spray Technology. |
| |
Keywords: | alumina microstructure plasma spraying wear |
本文献已被 SpringerLink 等数据库收录! |
|