抄録
In recent years, high-quality, highly efficient machining process are required for finishing the difficult-to-machine materials. The magnetic field assisted finishing process is a processing method that can obtain a high accuracy surface by using fine magnetic particles and abrasive grains, but the machining efficiency has to be improved. On the other hand, fixed abrasive polishing is a machining process can obtain high removal efficiency, but it is difficult to create high quality surface at the nano level. Therefore, this research proposes a new fixed abrasive polishing method combined with the magnetic field assisted machining process. A new finishing device was developed and finishing experiments on alumina ceramic plates were carried out. In this paper, the realization ability and the mechanism of this finishing process was investigated.
