TY - GEN
T1 - Prediction of critical velocity during cold spraying based on a coupled thermomechanical eulerian model
AU - Wang, F. F.
AU - Li, W. Y.
AU - Huang, C. J.
AU - Yu, M.
AU - Liao, H. L.
PY - 2013
Y1 - 2013
N2 - In cold spraying (CS), critical velocity of particles is the most important parameter. The impacting particles and substrate inevitably undergo a strong thermomechanical coupling process and serious plastic deformation in a very short time. In this paper, a coupled thermomechanical Eulerian (CTM-Eulerian) model was, for the first time, developed for CS particles to investigate the plastic deformation, heat conduction, and predict the critical velocity. Results show that the heat conduction has a significant effect on the temperature distribution within the particle, while a little influence on deformation. Moreover, based on the deformed shapes and plastic strain analysis, a calculated critical velocity of about 300m/s for copper is obtained, which seems more reasonable than that from the adiabatic Eulerian simulations. Finally, this CTM-Eulerian model is extended to other commonly sprayed materials and the predicted critical velocities of Al, SS304, Fe, and In718 are about 410m/s, 400m/s, 350m/s and 490m/s, respectively.
AB - In cold spraying (CS), critical velocity of particles is the most important parameter. The impacting particles and substrate inevitably undergo a strong thermomechanical coupling process and serious plastic deformation in a very short time. In this paper, a coupled thermomechanical Eulerian (CTM-Eulerian) model was, for the first time, developed for CS particles to investigate the plastic deformation, heat conduction, and predict the critical velocity. Results show that the heat conduction has a significant effect on the temperature distribution within the particle, while a little influence on deformation. Moreover, based on the deformed shapes and plastic strain analysis, a calculated critical velocity of about 300m/s for copper is obtained, which seems more reasonable than that from the adiabatic Eulerian simulations. Finally, this CTM-Eulerian model is extended to other commonly sprayed materials and the predicted critical velocities of Al, SS304, Fe, and In718 are about 410m/s, 400m/s, 350m/s and 490m/s, respectively.
UR - http://www.scopus.com/inward/record.url?scp=84907085492&partnerID=8YFLogxK
M3 - 会议稿件
AN - SCOPUS:84907085492
SN - 9781632666819
T3 - Proceedings of the International Thermal Spray Conference
SP - 701
EP - 706
BT - International Thermal Spray Conference and Exposition, ITSC 2013
PB - ASM International
T2 - International Thermal Spray Conference and Exposition: Innovative Coating Solutions for the Global Economy, ITSC 2013
Y2 - 13 May 2013 through 15 May 2013
ER -