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1)  Cathode design
阴极设计
1.
Integral impeller s formation upon Pro/E platform and cathode design;
基于Pro/E平台的整体涡轮造型及阴极设计
2.
According to the basic principle of electrochemical machining,discussed in this paper are two kinds of cathode design methods,which were respectively based on the mathematical model of a simplified electric field and the mathematical model of actual electric field distribution in the machining gap.
根据电解加工的基本原理,探讨了基于间隙内简化电场和基于间隙内实际电场分布数学模型的叶片电解加工阴极设计方法,对比分析了这两种阴极设计方法对间隙内电场强度分布的影响,通过一组工艺试验验证了阴极设计的精度。
2)  cathodic protection design
阴极保护设计
1.
The impact of correct selection of protection electric current intensity on cathodic protection design is highlighted.
文章简述了埋地钢质管道阴极保护及其设计步骤,强调了保护电流密度的正确选择对阴极保护设计的重要影响,列举了几种常用的电流密度确定方法,并对其特点进行了比较。
3)  cathode structure design
阴极结构设计
4)  electrode design
电极设计
1.
Finally,an electrode design and calculation process is simulated on comput.
提出了一种加工复杂构型的整体涡轮通道的创新思路和六轴联动创成式电火花加工的成形原理及工具电极设计的方法 ,建立了电极设计中的数字仿真变分模型 ,论述了电极路径的求解方法及设计过程的干涉计算问题 ,在计算机上仿真完成了某一电极设计计算过
2.
To produce shrouded turbine blisk by electro-discharge machining(EDM),a special CAD/CAM system called the BliskCad/Cam is developed to solve the problems,such as electrode designing and manufacturing,searching path for multi-axis NC-EDM,and precision measurement and detection,etc.
该系统解决了电极设计与制造、加工轨迹搜索、加工仿真与精度检测等技术难题。
3.
This paper describes the optimum project of heating equiment and electrode design con- cerned, based upon the small-sized LTR heat treatment furnace with fluidized graphite bed which was early developed by the writers, and the experience of developing a large powered fur- nace thereafter.
本文以笔者早年设计的小型石墨流态床热处理炉(LTR)和随后研制大功率炉的经验,讨论加热装置的最佳方案和电极设计的有关问题,通过理论分析和试验,给出950℃以下的温度-电阻曲线和屏蔽电极区间的电压-幂次和电阻-幂次曲线。
5)  ultimate design
极限设计
1.
By the study on whole strength and parameter optimization for the bearing,the theory analysis and the test show that the ultimate design method can largely increase carrying ability and service life of the bearing without changing bearing material and manufacture technology,and the method can decrease bearing weight and reduce the material consumption.
通过对轴承整体强度空间的研究和参数优化 ,从理论分析和试验证明 ,在不改变轴承材料及制造工艺的条件下 ,“极限设计方法”能大幅度提高轴承的承载能力和使用寿命 ,且能有效地减轻轴承重量 ,降低材料消耗。
6)  anode design
阳极设计
补充资料:假阴极
分子式:
CAS号:

性质:为了除去或使镀液中的杂质分解而使用的阴极。如镀镍溶液中的二价铜离子,可用镀镍的铁板作假阴极,在低电流密度下电解除去。

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