1) disappearing anode
阳极消失
1.
Dramatic developments to study and solve the key problems in reactive sputtering technology, such as arcing and disappearing anode, have been achieved during recent years.
近年来,反应磁控溅射在解决异常弧光放电和阳极消失等问题方面取得了很大的进展,已成功地应用于包括SiO2 在内的绝缘膜沉积,成为镀制介质膜的一个新方向。
2) anode deactivation
阳极失活
3) anode consumption
阳极消耗
1.
Nano-ZnO prepared by anode consumption method was characterized by XRD,TEM,XPS,UV-Vis and PL.
采用阳极消耗法制备了纳米ZnO粉体,并利用XRD,TEM,XPS,UV-V is和PL测试技术对样品进行了表征。
2.
This article elaborates carbon anode consumption mechanism,by the cryolite-alumina electrolytic process,infers the carbon anode consumption formalas about reaction between carbon anode and the CO2 as well as reaction between the carbon anode and the air.
阐述了冰晶石—氧化铝电解法生产铝的炭阳极消耗机理,推导出炭阳极与CO2作用以及炭阳极与空气反应阳极消耗数量的计算公式和在电解铝生产过程中如何确定过量消耗碳量。
5) loss of polarity
极性消失
6) sacrifical magnesium anode
消耗镁阳极
补充资料:银阳极泥提银(见铜阳极泥提金银)
银阳极泥提银(见铜阳极泥提金银)
extraction of silver from silver anode slime
y In yongJ,nl tlyln银阳极泥提银(extraetion of Silve:fr()nl 511一ver anode slime)见铜阳极泥提金银
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