火花侵蚀Mo和Nb合金粉末的特征

N. V. Shchipalkina, S. V. Pshenov, V. Chursin, D. S. Sadilo, E. Kolesnikov
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摘要

介绍了用火花侵蚀法制备的(Mo,Nb)和(Nb,Mo)合金球形粉末Сharacteristics。选择U = 24 V, I = 10 A和U = 24 V, I = 20 A蒸馏水两种状态进行粉末制备。电介质在火花侵蚀过程中热解形成稳定的氧化物NbO和NbO2,在粉末颗粒中形成10 nm ~ 10µm的薄结壳和球形包裹体。最大的电极成分偏差(从3到7 wt.% Nb)是含有9和10 wt.% Nb的Mo合金固有的。随着合金中Nb含量的增加,球形粉末中NbO夹杂物的数量增加,但仅在(Mo,Nb)系列样品中增加。这种规律性在(Nb,Mo)系列中没有观察到。电流值的减小导致球形粉体粒度组成的变化。I = 20 A时粉末的主要组分为40 ~ 80µm, I = 10 A时粉末的主要组分为20 ~ 50µm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Features of spark erosion fine Mo and Nb alloys powders
Сharacteristics of spherical powders of (Mo,Nb) and (Nb,Mo) alloys prepared by spark erosion technique are described. Two regimes (U = 24 V, I = 10 A and U = 24 V, I = 20 A in distilled water) were chosen for powder preparation. The pyrolysis of dielectric liquid during spark erosion leads to the formation of stable oxides NbO and NbO2 as thin crusts and spherical inclusions from 10 nm to 10 µm in powder particles. The largest deviations from electrode compositions (from 3 to 7 wt.% Nb) are inherent to Mo alloys with 9 and 10 wt.% of Nb. The number of NbO and to a lesser extent NbO2 inclusions in spherical powder increase with increasing of Nb content in alloy, but only in series of (Mo,Nb) samples. Such regularity is not observed for (Nb,Mo) series. Decrease of current value results the change of granulometric compositions of spherical powders. The main fraction of powders at I = 20 A is 40-80 µm and I = 10 A is 20-50 µm.
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