1) supersonic atomization
超音速雾化
1.
With the supersonic atomization device designed by our laboratory, we study on the process parameter abou.
为此,本文首先研究了SnAgCu系无铅焊锡合金,并利用本试验室自制的超音速雾化装置对其进行雾化法制粉末的工艺研究。
2.
We have developed a set of supersonic atomizing equipment with the base theory of the supersonic atomization and the base characteristic of the solder alloy.
为此,运用超音速雾化的基本原理和焊锡合金的基本性质,研制出一套超音速雾化装置,在该装置上对焊锡合金微粉的制备技术及工艺进行了系统的研究,并从理论上推导出适用于超音速雾化的气体速度公式。
2) supersonic atomizer
超音速雾化器
1.
Gas flow distribution of supersonic atomizer;
超音速雾化器的气体流场分布研究
3) ultrasonic gas atomization
超音速气体雾化
1.
Cooling rate calculation of a high silicon aluminum alloy powder prepared by ultrasonic gas atomization process;
超音速气体雾化高硅铝合金粉末冷却速度计算
4) Ultrasonic Arc Spray Gas Atomization
超音速电弧喷射气雾化
1.
The fine powder of Ag-10Ni immiscible alloy was prepared by Ultrasonic Arc Spray Gas Atomization process.
采用超音速电弧喷射气雾化制粉设备制备了难固溶Ag-10Ni合金粉末。
5) Ultrasonic Arc Spray Atomization
超音速电弧喷射雾化
1.
Rapid Solidification of Cu-10Ag Alloy Droplets by Ultrasonic Arc Spray Atomization;
超音速电弧喷射雾化Cu-10Ag合金熔滴的快速凝固
2.
Ag-10Ni and Ag-5Fe alloy powders were prepared by ultrasonic arc spray atomization process.
采用超音速电弧喷射雾化制备Ag-10Ni、Ag-5Fe合金粉末,采用SEM对合金粉末的快速凝固组织特征进行研究。
6) supersonic gas atomization
超音速气体雾化法
1.
Through a comparison of the four technigues,it is shown that supersonic gas atomization can produce powder with a particle size,particle shape and uniformity that fit the requirements of SMT application.
通过对4种方法的对比可以知道,超音速气体雾化法制得的微扮粒度、颗粒形状和均匀性均能满足SMT的要求,所以可以应用超音速气体雾化法制备无铅焊锡微粉。
补充资料:超音速气体雾化快凝A1-Li合金粉末及其板材和棒材
超音速气体雾化快凝A1-Li合金粉末及其板材和棒材
超音:《气体霉化快凝A1.L1合金衍柬及}扳材和摔材
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条