并总结了磨料流加工的主要结论。
结论可为定量分析磨料流加工提供理论依据。
The conclusions obtained can be used to provide the theoretical basis of quantitative analysis of abrasive flow machining.
流体磨料的粘度是磨料流加工工艺的重要参数。
The viscosity of flowable abrasive mixture is an important parameter in abrasive flow machining (AFM).
提出了磨料流加工磨料流动新的边界条件假设,并用简易实验验证了这种假设。
A new assumption of boundary conditions of abrasive flow in abrasive flow machining is presented in this paper. The new assumption is verified by a simple experiment.
在分析磨料流加工的力学特性基础上,得出了流体磨料的粘弹性是进行磨料流加工的必要条件。
On the basis of the analysis of AFM's mechanical properties, the conclusion that the necessary conditions of AFM are abrasive flow media's viscoelastic property is reached.
目前,有很多技术,而其中之一是加工 (AFM)过程的磨料流。
Presently, there are many techniques and one among them is abrasive flow machining (AFM) process.
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。
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。
The micro abrasive jet machining (MAJM) technology was used to make micro channels on the glass.
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