@article{1920,
  author = {Yang Hongmei},
  title = {Experimental Research on Engineering Ceramics Grinding Assisting with Ultrasonic Vibration},
  journal = {Transactions on Machine Design},
  year = {2015},
  volume = {3},
  number = {2},
  doi = {},
  url = {http://www.dline.info/tmd/fulltext/v3n2/v3n2_1.pdf},
  abstract = {Engineering ceramics was machining based on grinding technology as major process method assisting with
ultrasonic vibration, and the influences of grinding depth and worktable feed rate on the engineering ceramics surface
roughness as well as the engineering ceramics topography was also evaluated with the help of surface rough meter and
white-light interferometer. The results show that, compared with the engineering ceramics surface grinding using conventional
process, the surface roughness obviously lowered and the topography improved to some extent when grinding assisting with
ultrasonic vibration. Furthermore, the surface conditions was weakened as the grinding depth increases and the worktable
feed rate accelerates, which highly reached to 0.332μm and 0.187μm respectively.},
}