摘要
从气体动力学和流体力学分析了雾化气体压力、金属熔体温度和导液管内径对H70黄铜雾化粉末粒度分布的影响。结果表明:适当地提高气体压力和金属熔体温度或者减小导液管内径,均能使雾化粉末细粉量增加。当雾化气体压力为1.3 MPa,金属熔体温度为1 160℃,导液管内径为3.5 mm时,所制得粉末的粒度分布最理想。
The influence of the gas pressure, the metal melt temperature and the inner-diameter of melt delivery tube on particle size distribution of H70 brass powder was studied in light of gas kinetics and hydromechanics. Results show that quantity of fine powder can be increased when the gas pressure and melt temperature are properly increased or the inner-diameter of melt delivery tube is reduced. The particle size distribution reach optimum when gas pressure is 1.3MPa, melt temperature 1160℃ and inner-diameter of melt delivery tube 3.5mm.
出处
《粉末冶金技术》
EI
CAS
CSCD
北大核心
2005年第4期287-290,共4页
Powder Metallurgy Technology