1) cathode/erosion rate
阴极/耗损率
2) electrode wear rate
电极损耗率
1.
The material removal rate, electrode wear rate and surface morphology were investigated by experiments in details.
本文针对某车载动力系统多曲率油路的高效电火花成型加工进行研究,从工程应用出发,对其高效精密加工时的材料去除率、电极损耗率和表面形貌进行深入系统的试验研究和理论分析。
3) Tool Wear Ratio (TWR)
相对电极损耗率
4) consumable negative pole
自耗阴极
1.
The fusion electrolysis of Holmium oxide was carried on by consumable negative pole in the fluoride fused salt system.
在氟化物熔盐体系中采用自耗阴极进行氧化物的熔盐电解,通过电解温度、阴极电流密度和熔盐配比等主要技术条件进行正交设计试验,对电解过程中电解质组成、电解温度、阴极电流密度和加料速度等因素对合金成分、稀土收率影响进行了试验研究。
5) power consumption calculated on cathode
阴极能耗
1.
21V,the power consumption calculated on cathode was 22.
研究了电解电流、极距、NH4Cl浓度、pH值等因素对Ni2+去除率、槽压、阴极能耗的影响,得出最优工艺参数为:温度20℃,电解时间20min时、电解电流300mA,极距15mm,NH4Cl浓度5g/L,pH值8。
6) electrode wastage
电极损耗
1.
The Analysis and Prevent Measures Influenced on Electrode Wastage in ElementElectron Discharge Machining
电火花加工中影响电极损耗的因素分析及预防措施
2.
The electrode structure was designed and divided for the purpose of eliminating the effects of electrode wastage on the processing dimensional accuracy,and then for manufacturing precision injection mould.
在分析手表壳结构和工艺特点的基础上,叙述了表壳电极的拆分方法,阐述了如何根据产品结构拆分电极以及采取怎样的电极结构可以消除电极损耗对加工尺寸精度的影响,如何保证高效率、高精密地生产出高质量的手表壳模具。
补充资料:电导率(见电阻率)
电导率(见电阻率)
conductivity
d!日nd日O}已电导率(eonduetivity)见电阻率。
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