- 作者:I. Smurova ; igor.smurov@enise.fr ; M. Doubenskaiaa ; A. Zaitsevb
- 关键词:Optical diagnostics ; Laser cladding ; Pyrometry ; Temperature measurements ; Infrared camera ; Particle-in-flight
- 刊名:Surface and Coatings Technology
- 出版年:2013
- 出版时间:15 April, 2013
- 年:2013
- 卷:220
- 期:Complete
- 页码:112-121
- 全文大小:2084 K
The objective of the present study is to demonstrate the advantages of comprehensive optical monitoring of DMD technology applying diverse and complementary optical diagnostic tools: pyrometers and infrared camera are applied to measure brightness temperature that is useful to define the shape of molten pool, to control melting/solidification and to avoid thermal decomposition when complex powder blends are used.
The CCD-camera based diagnostic tool is useful for a particle-in-flight visualization, for a control of particle jet stability, and for a real-time measurement of particle-in-flight velocity. Numerical simulation of the carrier gas and particle flow in a coaxial nozzle of TRUMPF 505 DMD is carried out. Argon serving as carrier and shielding gas is supplied into an axial and two annular channels of the nozzle. Two-phase jet flowing toward the substrate and particle focusing mechanism are analyzed. Radial distribution of the particle mass flow over the substrate versus conditions of particle collision with nozzle walls is calculated. The developed software is used to analyze peculiarities of the particle heating and melting by the laser beam. This way, trajectories and thermal history are calculated for particles of different size.