作者在自研的精密铣床上,进行了微小复杂形面零件的切削加工实验,对用精密铣削技术加工三维微细金属零件工艺进行了较深入的研究。
The author machines complex shape microminiature parts on a precision milling machine developed by themselves, and study the machining technique of three dimension complex shape metal parts.
微磨料空气射流加工(MAJM)技术是对硬脆材料进行微细加工的一种非常有潜力的技术,特别是对复杂的三维微细结构的加工。
Micro Abrasive Jet Machining (MAJM) is a promising technique for micro processing of hard and brittle materials, particularly for machining complicated three - dimensional microstructures.
进行微细电火花三维扫描加工时,由于电极损耗相对严重,导致形位公差难以保证和加工效率较低。
In 3d scanning process of micro electro discharge machining (micro EDM), the machining efficiency and geometrical tolerance are difficult to be guaranteed due to the serious electrode wear.
展望了微细电火花加工在微三维结构加工中的应用前景。
The prospective application of micro-EDM in the manufacture of micro three-dimensional structures is discussed as well.
微细切削加工技术在精密三维微小零件制造中的应用,引发了微细制造领域重大的技术变革。
The applications of micro-cutting processing technology to the machining of 3d precision micro components evoked the great technological revolution in the field of micro-manufacturing.
在该装置上可以进行微细轴、微细孔和微三维结构的加工。
Therefore, micro shaft, micro hole, and 3D microstructure can be ma.
利用简单电极的微细电火花铣削加工具有适应性强、可操作性好等特点,在微三维结构的制作方面显示出了良好的应用前景。
Micro electro discharge milling (ED-milling) with simple electrode is found wide application in micro 3d structure machining due to the characters of adaptation and handle-ability.
针对三维金属微细结构的微细电火花加工,应用等损耗理论,采用分层加工的方法,建立了单道加工时底面形状随电极损耗而变化的轮廓模型。
Micro 3D structure machining with simple shaped electrode can't generally apply the method of common mechanical milling for the reason of electrode wear, Machining conditions and etc.
针对三维金属微细结构的微细电火花加工,应用等损耗理论,采用分层加工的方法,建立了单道加工时底面形状随电极损耗而变化的轮廓模型。
Micro 3D structure machining with simple shaped electrode can't generally apply the method of common mechanical milling for the reason of electrode wear, Machining conditions and etc.
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