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用于光学玻璃和陶瓷抛光的氧化锆涂层羰基铁颗粒基磁流变液。

Zirconia-coated carbonyl-iron-particle-based magnetorheological fluid for polishing optical glasses and ceramics.

作者信息

Shafrir Shai N, Romanofsky Henry J, Skarlinski Michael, Wang Mimi, Miao Chunlin, Salzman Sivan, Chartier Taylor, Mici Joni, Lambropoulos John C, Shen Rui, Yang Hong, Jacobs Stephen D

机构信息

Laboratory for Laser Energetics, University of Rochester, 240 East River Road,Rochester, New York 14623, USA.

出版信息

Appl Opt. 2009 Dec 10;48(35):6797-810. doi: 10.1364/AO.48.006797.

Abstract

We report on magnetorheological finishing (MRF) spotting experiments performed on glasses and ceramics using a zirconia-coated carbonyl-iron (CI)-particle-based magnetorheological (MR) fluid. The zirconia-coated magnetic CI particles were prepared via sol-gel synthesis in kilogram quantities. The coating layer was approximately 50-100 nm thick, faceted in surface structure, and well adhered. Coated particles showed long-term stability against aqueous corrosion. "Free" nanocrystalline zirconia polishing abrasives were cogenerated in the coating process, resulting in an abrasive-charged powder for MRF. A viable MR fluid was prepared simply by adding water. Spot polishing tests were performed on a variety of optical glasses and ceramics over a period of nearly three weeks with no signs of MR fluid degradation or corrosion. Stable material removal rates and smooth surfaces inside spots were obtained.

摘要

我们报告了使用基于氧化锆包覆羰基铁(CI)颗粒的磁流变(MR)流体对玻璃和陶瓷进行磁流变抛光(MRF)点抛光实验的情况。通过溶胶 - 凝胶合成法制备了千克级的氧化锆包覆磁性CI颗粒。涂层厚度约为50 - 100纳米,表面结构呈多面体形,且附着力良好。包覆颗粒在水腐蚀环境下表现出长期稳定性。在涂层过程中同时生成了“游离”的纳米晶氧化锆抛光磨料,从而得到了用于MRF的含磨料粉末。只需加水就能制备出一种可行的MR流体。在近三周的时间里,对多种光学玻璃和陶瓷进行了点抛光测试,未出现MR流体降解或腐蚀的迹象。获得了稳定的材料去除率和点内光滑的表面。

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