TY - GEN
T1 - Effect of coaxial powder nozzle design parameters and the gas flow on the powder gathering characteristics
AU - Zhang, Anfeng
AU - Fu, Wei
AU - Li, Dichen
AU - Lu, Zhongliang
AU - Zhu, Gangxian
AU - Lu, Qiaopan
PY - 2011
Y1 - 2011
N2 - In laser direct metal manufacturing process by coaxial powder feeding, the interaction between powder and forming sample will occur forming jet blocked, and easily lead to rebound in metal powder nozzle clogging and pollution lens, which affects the forming process. Therefore, the powder optimizes the nozzle cone angle of the powder cavity, and the laser cavity is imported the protection gas in the axial direction. Under the function of the three-route gas (middle route gas, carrying powder gas, outer layer protection gas), the influence rule of the above parameters on the powder gathering characteristics is simulated by FLUENT, and then combined with orthogonal test, to establish the theoretical basis for the laser direct metal forming. The results show that the blocked jet, In the blocked jet, the nozzle cone angle focal length the greater is the larger the powder together, optimized parameters chooses 75°. It is guaranteed that the three-route gas outlet pressure is balanced and the powder gathering concentration is biggest, and optimized parameter: middle route gas m=0.3m3/h, carrying powder gas q=0.24 m3/h, outer layer protection gas Q=0.1m3/h.
AB - In laser direct metal manufacturing process by coaxial powder feeding, the interaction between powder and forming sample will occur forming jet blocked, and easily lead to rebound in metal powder nozzle clogging and pollution lens, which affects the forming process. Therefore, the powder optimizes the nozzle cone angle of the powder cavity, and the laser cavity is imported the protection gas in the axial direction. Under the function of the three-route gas (middle route gas, carrying powder gas, outer layer protection gas), the influence rule of the above parameters on the powder gathering characteristics is simulated by FLUENT, and then combined with orthogonal test, to establish the theoretical basis for the laser direct metal forming. The results show that the blocked jet, In the blocked jet, the nozzle cone angle focal length the greater is the larger the powder together, optimized parameters chooses 75°. It is guaranteed that the three-route gas outlet pressure is balanced and the powder gathering concentration is biggest, and optimized parameter: middle route gas m=0.3m3/h, carrying powder gas q=0.24 m3/h, outer layer protection gas Q=0.1m3/h.
KW - Coaxial powder feeding
KW - Laser direct manufacturing
KW - Numerical simulation
KW - Powder gathering characteristics
KW - Three-route gas
UR - https://www.scopus.com/pages/publications/80052991594
U2 - 10.4028/www.scientific.net/AMR.314-316.1935
DO - 10.4028/www.scientific.net/AMR.314-316.1935
M3 - 会议稿件
AN - SCOPUS:80052991594
SN - 9783037852156
T3 - Advanced Materials Research
SP - 1935
EP - 1943
BT - Advanced Manufacturing Technology
T2 - 2011 International Conference on Advanced Design and Manufacturing Engineering, ADME 2011
Y2 - 16 September 2011 through 18 September 2011
ER -