Sedimentations on high-precision surfaces of advanced materials by magnetorheological finishing

SPIE Optics + Photonics Pub Date : 2006-09-15 DOI:10.1117/12.680247

A. Geiss, M. Schinhaerl, E. Pitschke, R. Rascher, P. Sperber, J. Slabeycius

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Abstract

Magnetorheological finishing (MRF) is a computer controlled polishing (CCP) technique for high precision surfaces. The process uses a magnetorheological fluid which stiffens in a magnetic field and thus acts as the polishing tool. A standard MR fluid consists of magnetic carbonyl iron (CI) particles, nonmagnetic polishing abrasives and liquid. To delaying oxidation of the iron particles and avoiding agglomeration the liquid consists of water completed with stabilizers. For the material removal and smoothing of the surface mostly cerium oxide or diamond is used. The materials to be polished may tend toward to different sedimentations of the MR fluid on the machined surface. These sedimentations result from the machining and may develop a polishing layer with MR fluid components. At the University of Applied Sciences Deggendorf analysis of the machined surface are made by the scanning electronic microscope (SEM) to determine the sedimentations of the finishing. The results of the research display the influence for the surface properties due to developing polishing layer by magnetorheological finishing.

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磁流变精加工技术在先进材料高精度表面上的沉降

磁流变抛光(MRF)是一种计算机控制的高精度表面抛光(CCP)技术。该工艺使用磁流变液，它在磁场中变硬，从而起到抛光工具的作用。一个标准的磁磁共振流体由磁性羰基铁(CI)颗粒、非磁性抛光磨料和液体组成。为了延缓铁颗粒的氧化和避免结块，液体由水和稳定剂组成。对于材料的去除和表面的光滑，主要使用氧化铈或金刚石。待抛光的材料可能倾向于MR流体在加工表面的不同沉淀。这些沉淀是机加工的结果，可能会形成含有磁流变液成分的抛光层。在应用科学大学Deggendorf，通过扫描电子显微镜(SEM)对加工表面进行分析，以确定精加工的沉积。研究结果显示了磁流变抛光形成抛光层对表面性能的影响。

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SPIE Optics + Photonics

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