The inverted device for the magnetorheological finishing was designed aiming at the huge dimension parts.
针对大尺寸工件的抛光加工特点,设计了倒置式的磁流变抛光装置。
The rational magnetic circuit configuration and magnetic density are crucial factors in magnetorheological finishing(MRF).
合理的磁路结构及磁场强度是决定磁流变抛光效果的关键所在。
A dwell time algorithm for the magnetorheological finishing (MRF) of the small axis-symmetrical aspherical surfaces is described.
介绍了一种基于代数算法的回转对称非球面计算机控制表面成形的驻留时间算法。
MRF in optical machining was presented and the main problems in MRF were analyzed. The studies of magnetorheological finishing and its application of industries were reviewed.
介绍了磁流变抛光技术在光学加工中的应用,分析了其中应重点解决的问题,并对磁流变抛光技术的发展前景进行了展望。
The process experiment of MRF optic parts was carried out based on theoretical analysis, and the removal characteristics of this magnetorheological finishing process were analyzed.
在理论分析的基础上,进行了相应的工艺实验,分析了该磁流变抛光方法的去除特性,并对中心区域去除特性的不同原因进行了探讨。
Based on the mechanism of magnetorheological finishing by computer control for optical surface, the core issues of process software are calculating dwell function and designing of machining path.
根据计算机控制磁流变抛光的去除机理,分析了抛光工艺软件的去除算法核心问题即求解驻留时间函数和加工路径设计。
Magnetorheological Finishing technology (MRF) is a new type of developed flexible processing technology with easy control, removal function stable, no subsurface damage characteristics and so on.
磁流变研抛技术(MRF)是一种新型的柔性光整加工技术,具有易控制、去除函数稳定、无亚表面损伤等优点。
Magnetorheological jet polishing (MJP) is a new deterministic precision finishing technology.
磁射流抛光技术是一种新型的确定性精密抛光方法。
Magnetorheological jet polishing (MJP) is a new deterministic precision finishing technology.
磁射流抛光技术是一种新型的确定性精密抛光方法。
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