Fabrication of micro channels is a key technique for production of analysis chip.
微通道制作是微分析芯片制作中的关键技术之一。
The micro abrasive jet machining (MAJM) technology was used to make micro channels on the glass.
采用微磨料气射流加工技术(MAJM),对普通硅酸盐玻璃进行微流道槽加工。
Experiments to investigate the heat transfer and fluid dynamic characteristics of water flowing through micro channels were conducted.
水在微尺度槽道中单相流动和换热的研究,是通过对其流动阻力和换热强度等的实验进行的。
These rules of engagement form the basis for creating myriad micro-channels and a framework for extending the core business.
这些使用条款形成了创建无数的微细血管的基础和扩大核心业务的框架。
The inverse opal is a chip with micro-channels sensitive to liquids of specific surface tensions.
反蛋白石是一种有着微管道结构的薄片,它表面张力系数不同的液体非常的敏感。
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.
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。
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.
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.
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。
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