1) EDT
电火花毛化
2) electro-discharge texturing
电火花毛化加工
1.
The technology of electro-discharge texturing(EDT) is introduced in brief.
介绍了电火花毛化加工工艺,建立了基于力控版监控组态软件的电火花毛化加工机床监控系统及轧辊毛化加工车间生产管理系统,并实现了对电火花毛化加工机床的远程监控。
2.
The design of the improvement of the electro-discharge texturing machine operation station with Profibus is presented in this paper.
用Profibus总线设计了电火花毛化加工机床的终端改进方案,进行了操作终端改造的硬件和软件组态工作,调试完成投入运行后,新终端达到了预期的设计要求。
3) EDM
电火花
1.
Power Supply for Ultrasonic Motor Applicable to EDM;
适合于电火花加工的超声马达驱动电源的研制
2.
Gas Flow Field Simulation During Ultrasonic Vibration Assisted Gas Medium EDM Based on Fluent Software;
基于Fluent的超声振动-气体介质电火花加工气体流场模拟
3.
Machining Curve Surface Cavities of Mould by Trepanning Technology of EDM;
模具型腔三维曲面的电火花套型加工
4) Electrical Discharge
电火花
1.
Numerical simulation of temperature field for electrical discharge strengthened coating;
电火花表面强化层温度场的数值模拟
2.
A new EDM technology-ultrasonic vibration assisted electrical discharge machining in gas was proposed and corresponding experimental equipment was designed.
简述了超声振动辅助气体介质电火花加工原理,并设计开发了相应的实验机床。
3.
The surfaces of U70MnSi and 40Cr were strengthened by a self-made electrical discharge surface strengthening equipment using hard alloy YG-8 and FW-1101 as electric pole.
采用硬质合金YG-8和堆焊焊条FW-1101作电极,在电火花表面强化器上分别处理了U70MnSi钢和40Cr钢的表面。
5) electrospark
电火花
1.
lnterfacial behavior of filled joints by electrospark overlaying;
填充型电火花精密堆焊接头的界面结合行为
2.
Microstructure and properties of electrospark surface strengthening layers;
电火花表面强化层组织结构和性能的研究
3.
Electrospark surface strengthening technique and machine;
电火花表面强化工艺及设备
6) electric spark
电火花
1.
Analysis and verification of the machining mechanism of air mixed electric spark;
混气电火花加工机理的分析及验证
2.
Evaluation of Uncertainty in Determination of Carbon in Low Alloy Steel by Electric Spark-Direct Reading Spectrometry;
电火花直读光谱法测定低合金钢中碳的测量不确定度评定
3.
Determination of Iron,Silicon,Copper,Manganese,Magnesium, Titanium and Zinc in Pure Aluminum Sheets by Electric Spark Direct Reading Spectrometry;
电火花-直读光谱法测定纯铝薄板中的Fe、Si、Cu、Mn、Mg、Ti、Zn
参考词条
补充资料:电火花
分子式:
CAS号:
性质:电极间击穿放电时的强烈流柱。大量电火花汇集成电弧。电火花的温度高达摄氏数千度,不仅能直接引起可燃物燃烧,还能使金属熔化、飞溅,构成二次火源。产生电火花的处所和操作过程有(1)刀开关、断路器、接触器等电气设备操作过程中。(2)直流电动机的电刷与换向器的滑动接触处、绕线式异步电动机的电刷与滑环的滑动接触处。(3)电气设备或电气线路的绝缘发生过电压击穿、发生短路、故障接地、导线断开或接头松动时。(4)熔断器的熔体断开。(5)雷电放电、静电放电、电磁感应放电等。
CAS号:
性质:电极间击穿放电时的强烈流柱。大量电火花汇集成电弧。电火花的温度高达摄氏数千度,不仅能直接引起可燃物燃烧,还能使金属熔化、飞溅,构成二次火源。产生电火花的处所和操作过程有(1)刀开关、断路器、接触器等电气设备操作过程中。(2)直流电动机的电刷与换向器的滑动接触处、绕线式异步电动机的电刷与滑环的滑动接触处。(3)电气设备或电气线路的绝缘发生过电压击穿、发生短路、故障接地、导线断开或接头松动时。(4)熔断器的熔体断开。(5)雷电放电、静电放电、电磁感应放电等。
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