EDM tool electrode with high aspect ratio is produced successfully by combining deep lithography with electroforming.
采用深度光刻与电铸技术相结合的方法,较好地解决了大深宽比的电火花工具电极的制造问题。
Tool electrodes are very important factor in electrical discharge machining (EDM). The properties of electrode materials have a great influence on EDM performance.
工具电极是电火花加工中非常重要的因素,电极材料的性能对电火花加工性能具有很大影响。
Enhancing electrical erosion resistance of tool electrode and reducing electrode wear is one of research keys to fabricate HARMs with micro EDM technology reliably, stably and efficiently.
增强工具电极材料的耐电蚀能力,降低电极损耗是微细电火花加工技术可靠、稳定且高效制造高深宽比微结构和器件的研究关键之一。
In addition, the feature of low electrode wear ratio of the electrical discharge machining in gas (dry EDM) is helpful to implement the tool electrode wear compensation in dry ED-Milling.
此外,气体介质中电火花加工工具电极损耗低的特点有利于实现气中电火花削加工工具电极损耗的补偿。
Tool electrode ultrasonic vibration aided gas medium EDM technology was proposed and correspondingexperiment system was designed.
提出了工具电极超声振动辅助气体介质电火花加工方法。
The latest research progress in tool electrode materials of EDM used in conventional EDM, EDM surface modification and Micro-EDM has been introduced.
介绍了电火花加工用工具电极材料在普通电火花加工、电火花表面改性和微细电火花加工三个方面的最新研究进展。
Virtually, ultrasonic vibration is added to tool electrode or workpiece electrode on the basis of EDM to improve the processing conditions in ultrasonic vibration assisted EDM process.
超声电火花复合加工实质上就是在普通电火花放电加工的基础上,在工具电极或工件上叠加一个超声振动,以改善放电加工条件。
Virtually, ultrasonic vibration is added to tool electrode or workpiece electrode on the basis of EDM to improve the processing conditions in ultrasonic vibration assisted EDM process.
超声电火花复合加工实质上就是在普通电火花放电加工的基础上,在工具电极或工件上叠加一个超声振动,以改善放电加工条件。
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