Experiment Research of Polishing Capability of Magnetorheological Finishing with a Small Permanent Magnet Ball-End Tool

Yin Rui Su; Dan Li; He Nan Liu; Ming Jun Chen; Hui Peng

doi:10.4028/www.scientific.net/KEM.589-590.497

Paper Titles

Analysis of Path Distribution in Lapping and Polishing with Single Fixed Abrasive
p.475

Indentation and Scratching Experimental Research on Brittle-Ductile Transition of Optical Glass SF6
p.480

Experimental Research on Double-Side Lapping of Cylindrical Roller by Taguchi Methods
p.485

Development of Ultra-Precison Single-Plane Lapping Machine
p.491

Experiment Research of Polishing Capability of Magnetorheological Finishing with a Small Permanent Magnet Ball-End Tool
p.497

Study of Electrode Wear Ratio of Piezoelectric Self-Adaptive Micro-EDM
p.505

Simulation of Edge Chipping in Laser-Assisted Milling of Silicon Nitride Ceramics Using the XEFM
p.511

Study on Three-Way Pipe’s Internal High Pressure Forming Simulation
p.517

Rotary Ultrasonic Machining of Sapphire: Feasibility Study and Designed Experiments
p.523

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Experiment Research of Polishing Capability of Magnetorheological Finishing with a Small Permanent Magnet Ball-End Tool

Abstract:

In order to resolve the difficulty in polishing work of complex shape, a new magnetorheological finishing (MRF) technology with a small permanent magnet ball-end tool is developed. Rotary symmetrical magnetic field generated by the small permanent ball-end tool, stiffen a magnetic fluid which is delivered by a slender needle tubing, in contact with a workpiece. The permanent magnet tool is hold by a slender cylindrical shank, so it won’t interfere with workpiece when polishing deep concave cavity. A prototype apparatus is established to study the processing characteristics of this polishing method. MRF spots are taken on stationary workpiece to study the influence of several processing parameters on the material removal function, such as, spindle speed, included angle and minimum gap between polishing tool and finishing-surface. A 3×3mm square on a fused quartz (FS) is polished and the surface roughness decrease from 81nm Ra to 1.5nm Ra after polishing for 100min.