Articles
  • Ultra precision polishing of Si3N4 ceramics using magnetorheological fluids and diamond abrasives
  • Dong-Woo Kima, Jung-Won Leea, Myeong-Woo Choa, Young-Jae Shinb, Jingwen Xuc, Ki-Ju Leec, Seung-Yong Shind and Won-Seung Choc,*
  • a Department of Mechanical Engineering, Inha University, Incheon 402-751 Korea b Nano-Mechanical System Technology Division, KIMM, Daejeon 305-343 Korea c School of Materials Science and Engineering, Inha University, Incheon 402-751 Korea d Advanced Functional Material Team, KITECH, Incheon 406-840 Korea
Abstract
Si3N4 ceramics were prepared by hot-pressing at 1800 oC for 2 h. Firstly, the microstructure and mechanical properties of Si3N4 ceramics with sintering aids of 8 mol% Y2O3+ 6mol% Al2O3 were investigated. The Si3N4 ceramics showed excellent mechanical properties. Grain bridging and pullout were observed during the Vickers indentation crack propagation, implying that they are possible toughening mechanisms for Si3N4 ceramics. The secondary phase was identified as Y10Al2Si3O18N4 (YAlSiON), which was formed by the reaction with the sintering aids, Si3N4, and SiO2. Secondly, ultra precision polishing experiments for Si3N4 ceramics were performed using magnetorheological fluids (MR fluids) and diamond slurries. A series of experiments were performed under various polishing conditions by changing the current intensity and spindle speed for a given time period of 10 minutes. The machined surfaces were observed using a SEM and surface profiler to investigate the surface integrity changes. As a result, a very fine surface roughness of Ra = 1.012 nm was obtained within 10 minutes when the electric current was 2 A and the wheel speed was 300 rpm. Also, it was observed that the MR polishing method can provide excellent surface roughness compared with the existing lapping methods.

Keywords: Si3N4, Ultra precision polishing, Magnetorheological fluid, Diamond slurry, Surface roughness.

This Article

  • 2009; 10(3): 290-295

    Published on Jun 30, 2009