Thermal spray technologies

The coating has to adhere to the substrate. In older thermal spray technology, the bonding may be mechanical as a result of the interlocking between... 

A.J. Slifka, B.J. Filla, J.M. Phelps, C.C. Berndt and G. Bancke, Thermal Conductivity of a Zirconia Thermal Barrier Coating, submitted to Journal of Thermal Spray Technology. 

An ideal bond coat should have several characteristics that include uncompromised biocompatibility, good adhesion to both the metal substrate and the osseoconductive top coat, and a well-defined melting point to allow application of thermal spray technology. The adhesive function of the bond coat has been loosely compared to the action of a double-sided adhesive tape. 

Surface engineering by thermal spray technologies has attracted increasing attention over the last decades. This book provides the physical background needed to understand the technique and critically assesses its advantages and disadvantages for present and emerging applications. 

Plasma spraying is a thermal spray technology in which finely ground metallic and non-metallic materials are deposited on a substrate in a molten or semimolten state (Kudinov et al., 1990 Zhukov Solonenko, 1990 Pawlowski, 1995 Vurzel Nazarov, 2000 Fauchais, Vardelle, Dussoubs, 2001 Fauchais, 2004 Knight, 1991,1998,2005 Yoshida,... 

Thermal Spray Technologies Reactive Plasma Spray Forming... 

Arsenault, B., Champagne, B., Lambert, P., and Daillaire, S. (1989). Zinc-nickel coatings for improved adherence and corrosion resistance. Thermal Spray Technology New Ideas and Processes. ASM International, Metals Park, OH, pp. 409-416. Ashworth, V., and Fairhurst, D. (1975). The effect of temperature on the behaviour of a zinc-mild steel couple in a solution containing chloride ions. Corros. Sci., 75(11-12), 669-686. 

Vapor phase Thermal spray technologies EVD Columnar 100-500 pm h- 3-50 pm h Expensive High deposition rates, various compositions, possible thick and porous coatings, high temperatures necessary High reaction temperatures necessary, corrosive gases... 

M.E. Aalami-Aleagha, S.S. Madaeni, P. Daraei, A new apphcation of thermal spray in preparation of metalhc membrane for concentration of glucose solution. Journal of Thermal Spray Technology, 18 (4), 519-524,2009. 

Chraska, P. Dubsky, J. Neufuss, K Pisacka, J. (1997). Alumina Based Plasma Sprayed Materials, Part I Phase Stability of Alumina and Alumina-Chromia. Journal of Thermal Spray Technology, Vol. 6, No. 3, pp. 320-326, ISSN 15441016... 

Mohanty, P. S. Roche, A. D. Guduru, R. K. Varadaraajan, V. (2010). Ultrafine Particulate Dispersed High-Temperature Coatings by Hybrid Spray Process. Journal of Thermal Spray Technology, Vol. 19, No. 1-2, pp. 484-494, ISSN 15441016... 

Journal of Thermal Spray Technology. 1992- (1059-9630) Springer New Yoik, LLC. Journal of Vacuum Science Technology. 1964-. Part A (1553-1813) Part B (1071-1023) American Institute of Physics. 

International Thermal Spray Association (ITSA), The http //www.thermalspray.org/ (accessed August 16, 2010). The International Thermal Spray Association is closely interwoven with the history of thermal spray development in this hemisphere. Founded in 1948, and once known as Metallizing Service Contractors, the association has been closely tied to almost all major advances in thermal spray technology, equipment and materials, industry events, education, standards, and market development in North and South America (from Web page). 

Ishikawa, Y, Kawakita, J., Sawa, S., Itsukaichi, T., Sakamoto, Y, etal. 2005. Evaluation of corrosion and wear resistance of hard cermet coatings sprayed by using an improved HVOF process. Journal of Thermal Spray Technology, 14, 384-390. 

There are three basic categories of thermal spray technologies combustion torch (flame spray, high velocity oxy-fuel, and detonation gun), electric (wire) arc, and plasma arc. Thermal spray processes are maturing, and the technology is readily available. 

Ha5mes JA, Ferber MK, Porter WD. Thermal cycling behavior of plasma-sprayed thermal barrier coatings with various MCrAIX bond coats. Journal of Thermal Spray Technology. 2000 9 38-48. 

Ramaswamy P, Seetharamu S, Varma KB, Rao KJ. Thermal barrier coating application of zircon sand. Journal of Thermal Spray Technology. 1999 8 447-453. 

FAUOO] FAUCHAIS P., VARDELLE A. and DUSSOUBS B., Quo vadis thermal spraying , J. of Thermal Spray Technology, 2000. 

Rupa, R K. P., Sharma, R, Mohanty, R. M., Balasubramanian, K. (2010). Microstructure and phase composition of composite coatings formed by plasma spraying of ZrOj and B C powders. Journal of Thermal Spray Technology, 19 A), 816-823. doi 10.1007/s 11666-010-9479-y. 

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