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Fe_3O_4基电流变液的抛光特性研究 被引量:2

Polishing Properties of the Fe_3O_4-based Electrorheological Fluid
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摘要 利用Fe3O4基电流变液对玻璃材料进行抛光加工试验,考察了抛光截面的形状特征,研究了加工间隙、电场强度对玻璃工件的材料去除的影响。结果显示电流变效应微磨头定点抛光的加工痕迹呈近似"U"形,材料去除率取决于磨料与工件表面的研磨压力和相对速度的共同作用,材料去除量随着外加电压的增大而呈线性增大,而随加工间隙的增大而线性减小。 Experiments were conducted to reveal the polishing properties of the Fe3O4-based electrorheological fluid which was used to form a dynamical,instantaneous tiny-grinding wheel to polish optical glass.The profile of the polished area of the glass surface indicates that the material removal process is dominated by the synergy of the applied pressure and the relative velocity between the abrasives and the polishing workpiece.It is also found that the material removal rate is directly proportional to the intensi...
作者 路家斌 阎秋生 田虹 高伟强
机构地区 广东工业大学机电工程学院
出处 《润滑与密封》 CAS CSCD 北大核心 2008年第5期22-25,共4页 Lubrication Engineering
基金 国家自然科学基金项目(50575045) 广东省自然科学基金项目(07001803,4009490)
关键词 抛光 电流变液 四氧化三铁 微磨头 polishing electrorheological fluid Fe3O4 tiny-grinding wheel
分类号 TG175 [金属学及工艺—金属表面处理]
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  • 1Mounier E.MEMS,the Alternative Semiconductor Business[C]//The European Society for Precision Engineering and Nanotechnology(EUSPEN).Proceedings of the 3rd International Conference of EUSPEN.Bedford,UK:EUSPEN,2002:205-208.
  • 2Kuriyagawa T,Saeki M,Syoji K.Electrorheological Fluid-assisted Ultra-precision Polishing for Small Three-dimensional Parts[J].Precision Engineering,2002,26:370-380.
  • 3Kim W B,Min B K,Lee S J.Development of a Padless Ultraprecision Polishing Method Using Electrorheological Fluid[J].Journal of Materials Processing Technology,2004,155-156:1293-1299.
  • 4Bi Feifan,Yan Qiusheng.On Electrorheological Effect Instantaneous Tiny Grinding Wheel for Fine Machining[J].Key Engineering Materials,2006,304-305:181-185.
  • 5Yan Qiusheng,Bi Feifan,Wu Naiqi.Performance Evaluation of Electro-rheological Fluid and Its Applications to Micro-parts Fine-machining[J].Key Engineering Materials,2006,315-316:352-356.
  • 6Kordonski W,Golini D.Progress Update in Magnetorheological Finishing[J].International Journal of Modern Physics B,1999,13:2205-2212.

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润滑与密封
2008年 第5期

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