Circumferential seam type supersonic nozzle for metal gas atomization
A technology of supersonic nozzle and gas atomization, which is applied in liquid injection devices, injection devices, etc., can solve the problems of gas energy loss, the existence of shock waves, and large turbulence, so as to reduce energy loss and turbulence, reduce effect of chance
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Embodiment 1
[0044] In this embodiment, the FeNi30 alloy melt flows out of the nozzle at a temperature of 1650°C. The ratio of the throat slit width c of the gas nozzle to the exit slit width d is 1:1.7, and the stable section L 1 The ratio to a is 1:1, the ratio of the stable section a to the throat c is 5:1, and the length of the contraction section is L 2 The ratio to b is 1:2, and the angle α is 15°. The atomizing gas is nitrogen, the atomizing pressure is 4.0MPa, and the pressure in the atomizing chamber is 0.1MPa. The particle size distribution curve of the metal powder is as follows Figure 5 As shown, the SEM photo of the metal powder is as follows Image 6 shown. The average particle diameter of the produced powder is 27.1 μm, 10 wt% is less than 11.2 μm, and 90 wt% is less than 60.6 μm.
Embodiment 2
[0046] The material is 17-4PH stainless steel melt, which is sprayed from the diversion nozzle at a temperature of 1600°C, and the inner diameter of the diversion nozzle is 4.0mm. The ratio of the throat slit width c of the gas nozzle to the exit slit width d is 1:3, and the stable section L 1 The ratio to a is 1:2, the ratio of the stable section a to the throat c is 4:1, and the length of the contraction section is L 2 The ratio to b is 1:2, and the angle α is 20°. The atomizing gas is nitrogen, the atomizing pressure is 3.5MPa, and the pressure in the atomizing chamber is 0.1MPa. The SEM photo of 17-4PH stainless steel powder is as follows Figure 7 shown. The powder achieved an average particle diameter of 22.1 μm, with 16 wt% smaller than 9.1 μm and 84 wt% smaller than 41.7 μm.
Embodiment 3
[0048] In this embodiment, the ratio of the throat slit width c of the gas nozzle to the exit slit width d is 1:2, and the stable section L 1 The ratio to a is 1:2, the ratio of the stable section a to the throat c is 5:1, and the length of the contraction section is L 2 The ratio to b is 1:2, and the angle α is 20°. The atomization gas is argon, the atomization pressure is 2.0MPa, and the pressure in the atomization chamber is 0.1MPa. The atomization temperature of CuSn20 alloy melt is 1200℃. The SEM photo of CuSn20 powder is as Figure 8 shown. 10 wt% of the atomized powder is less than 5.6 μm, 90 wt% is less than 25.2 μm, and the average diameter D50 is 13.6 μm.
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