Open Access
Issue
MATEC Web Conf.
Volume 288, 2019
2019 5th Asia Conference on Mechanical Engineering and Aerospace Engineering (MEAE 2019)
Article Number 01001
Number of page(s) 5
Section Mechanical Engineering
DOI https://doi.org/10.1051/matecconf/201928801001
Published online 14 August 2019
  1. R. L. Hecker, S. Liang, Predictive modeling of surface roughness in grinding, International Journal of Machine Tools and Manufacture, 43, 755–761 (2003) [CrossRef] [Google Scholar]
  2. S. Malkin, C. Guo, Grinding technology - theory and applications of machining with abrasives – Second editor, Industrial Press, New Yourk (2008) [Google Scholar]
  3. G. K. Lal, M. C. Shaw, The role of grain tip radius in finegrinding, Journal of Engineering for Industry August, 1119–1125 (1975) [CrossRef] [Google Scholar]
  4. Q. Cui, S. Chen, H. Ding, K. Cheng, Dynamic Model of Material Removal Process in Through − feed Grinding Based on the Lagrange Equation, Trans tech Publications, Switzwerland, 667, 173–180, (2016) [Google Scholar]
  5. H. Tonshoff, J. Peters, I. Inasaki, T. Paul, Modeling and simulation of grinding processes, Annals of CIRP 41, 677–688 (1992) [CrossRef] [Google Scholar]
  6. K. Nakayama, M. C. Shaw, Study of finish produced in surface grinding, part 2, Proceeding of the Institution of Mechanical Engineers, 182, 179–194 (1968) [Google Scholar]
  7. D. Duc Trung, N. Van Thien, H. Tien Dung, Predictive Surface Roughness of Workpiece in Surface Grinding, American Journal of Materials Research, 4, 37–41 (2017). [Google Scholar]
  8. D. Duc Trung, P. Xuan Son, Predictive surface roughness of workpiece in cylindrical grinding, The first internaltional conference on material, machines and methods for sustainable development, 2, 831–837 (2018) [Google Scholar]
  9. A. Venu Gopal, V. Rao, A new chip-thickness model for performance assessment of silicon carbide grinding. Int J Adv Manuf Technol, 24, 816–820 (2004) [CrossRef] [Google Scholar]
  10. J. E. Mayer, G. P. Fang, Effect of grit depth of cut on strength of ground ceramics, Annals CIRP, 43, 309–312 (1994) [CrossRef] [Google Scholar]
  11. S. Somasundaram, C. Thiagarajan, Experimental Evaluation of a Chip Thickness Model Based on the Fracture Toughness of Abrasive and Work Material in Grinding of Alumina Ceramics. International Journal of Modern Engineering Research, 3, 3825–3829 (2013) [Google Scholar]
  12. Xu. Hockin, S. Jahanmir, L. K. Ives, Effect of grinding on strength of tetragonal zirconia and zirconia-toughned alumina, Journal of Machining Science Technology, 1, 49–66 (1997) [CrossRef] [Google Scholar]
  13. Loan D. Marinescu, U. Eckart, W. Brian Rowe, Handbook of machining with grinding wheels, CRC Press Taylor & Francis Group (2006) [CrossRef] [Google Scholar]
  14. X. Chen, Strategy for the selection of grinding wheel dressing conditions, Ph.D. Thesis, Liverpool John Moores University (1995) [Google Scholar]
  15. Z. Ping, H. Michele, Grinding Wheel Condition Prediction and Improvement, Michigan Technological University, Houghton, MI (2002) [Google Scholar]

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