1) electrolytic cutting
电解切割
2) electrochemical mechanical cutting
电解-机械切割
1.
Algorithm of NC electrochemical mechanical cutting ruled surface is researched,in order to cut the vane of an integral impeller accurately.
在建立叶片型面型值点数据库的基础上,完成了叶片型面拟合、插值加密、边界处理的计算机程序,并计算出5轴联动机床加工时的各轴运动参数,最后实现了整体叶轮叶片数控电解-机械切割加工程序的自动编程。
3) Cutting and Dismantling
切割解体
5) wire electrochemical micro-machining
微细电解线切割加工
1.
Base on the principle of electrochemical,the mechanism of wire electrochemical micro-machining is investigated,the theoretical model of the method is founded and the top limit of feed speed of the micron scale wire electrode is studied.
基于电化学原理,讨论微细电解线切割加工的机理,建立了加工的理论模型,得出微米尺度线电极进给速度的理论上限。
6) cutting power supply
切割电源
1.
The paper analyzes and designs the main circuit of high-power IGBT inverted air plasma cutting power supply.
对一种大功率IGBT逆变式空气等离子切割电源的主电路进行了原理分析与设计。
2.
Focusing on characteristics of inverted plasma cutting power supply with nonlinearity,time variability and hybrid property,a simulation model of digital inverted cutting power system based on PI adjustment was put forward.
采用基于Simulink的元件仿真技术,针对逆变式等离子弧切割电源本身具有非线性、时变性及混杂性特点,建立了基于PI调节的数字化逆变式切割电源系统仿真模型。
补充资料:铝电解厂16kV·A电解槽系列及电解多功能机组
铝电解厂16kV·A电解槽系列及电解多功能机组
铝电解厂16kV·A电解槽系列及电解多功能机组
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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