微磨料水射流加工技术正成为制造微细结构零件重要的经济高效的微细加工技术。
Micro abrasive water jet machining (MAJM) is becoming an important machining technique for cost effective micro machining.
微磨料水射流抛光技术的研究和应用具有重大理论意义和实用价值,具有广泛市场前景。
Study on surface polishing technology using micro abrasive water jet has great academic meaning and application value. It has wide application market.
作者在玻璃上进行微磨料水射流微细槽加工的实验基础上,对微磨料水射流加工的表面形貌、材料冲蚀去除机理及加工工艺性能进行了研究。
This paper presents a study of using micro-abrasive water jet for the machining of micro-channels on brittle glasses. The erosion mechanism, surface pattern and process performance are studied.
适当地控制加工工艺参数,在低压下,微磨料水射流加工是一种用于脆性材料上微细通道的加工切实可行的方法,并可获得良好的加工表面质量。
With proper control of the operating parameters, this technology can be used for machining micro-channels on brittle materials with high quality of surface finish.
研究表明,微磨料水射流对工件表面具有良好的抛光作用,并能在抛光的同时提高工件表面硬度、表面的疲劳强度,且硬度低的工件表面效果较为明显。
The results show that abrasive water jet polishing surface has a good effect and can improve the surface hardness, surface fatigue strength. The lower the surface hardness, more obvious the effect.
研究表明,微磨料水射流对工件表面具有良好的抛光作用,并能在抛光的同时提高工件表面硬度、表面的疲劳强度,且硬度低的工件表面效果较为明显。
The results show that abrasive water jet polishing surface has a good effect and can improve the surface hardness, surface fatigue strength. The lower the surface hardness, more obvious the effect.
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