This paper presents how the particle diameter, the gas flow and the position of the powder injector angle affects the behavior of a NiCrAlY particle with some simulations made with “Jet&Poudres” software.

Davis, J.R., Handbook of thermal spray technology, ASM International, 2004.

D.J. Varacalle, Jr., K. Barnett, A Complete Predictor Methodology for the Plasma Spray Process, Thermal Spray: Practical Solutions for Engineriing Problems, Ed. C.C. Berndt Published by ASM International, Materials Park, Ohio-USA, 1996

Easter, G., Thermal spraying methods for repairing and manufacturing, Wexford 2008

M. Gell, Technology Assessment of Nanostructured Coatings, Journal of Thermal Spray Technology, vol.7 ,September 1998

S. Das, V.K. Suri, U. Chandra, One-Dimenional Mathematical Model for Selecting Plasma Spray Process Parameters Journal of Thermal Spray Technology, vol.4, 1995

Vuscan, I., Tehnologii şi utilaje de recondiţionare, Editura Risoprint, Cluj-Napoca, 2000

X. Fan, F. Gitzhofer, M. Boulos, Investigation of Alumina Splats Formed in the Induction Plasma Process, Journal of Thermal Spray Technology, vol.7, 1998

Zhang, W., Integration of process diagnostics and three dimensiona; simulations in thermal spraying, Dissertation, Stony Brook Univeristy, 2008