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Katsushi Furutani, Nguyen Trong Hieu, Noriyuki Ohguro, Takashi Nakamura: Pressure-based in-process measurement by the null method for automatic compensation of wheel wear during surface grinding, Proceedings of the Institution of Mechanical Engineers Part B; Journal of Engineering Manufacture, 217, B2, pp. 153-159 (2003)

Related paper

Katsushi Furutani, Nguyen Trong Hieu, Noriyuki Ohguro, Takashi Nakamura: Automatic compensation for grinding wheel wear by pressure based-in process measurement in wet grinding, Precision Engineering, 27, 1, pp. 9-13 (2003)

Number of citation: 13

  1. L. M. Xu, F. Fan, Z. Zhang et al.: Fast on-machine profile characterization for grinding wheels and error compensation of wheel dressing, PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY, 55, pp. 417-425, JAN 2019
  2. Gourhari Ghosh, Ajay Sidpara, P. P. Bandyopadhyay: Comprehensive study to evaluate the lifespan of flexible polishing pads by 3D surface characterization technique, MEASUREMENT, 127, pp. 29-41, OCT 2018
  3. Gorka Vidal, Naiara Ortega, Hector Bravo et al.: An Analysis of Electroplated cBN Grinding Wheel Wear and Conditioning during Creep Feed Grinding of Aeronautical Alloys, METALS, 8, 5, 350, MAY 2018
  4. Yoshiya Fukuhara, Shuhei Suzuki, Hiroyuki Sasahara: Real-time grinding state discrimination strategy by use of monitor-embedded grinding wheels, PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY, 51, pp. 128-136, JAN 2018
  5. G. Valino, R. Wdowik, J. Misiura et al.: Non-contact measurement of grinding pins by means of a 2D laser micrometer, Procedia Manufacturing, 13, pp. 534-541, JUN 2017
  6. Liangzhou Chen, Xiaojun Liu, Yongsheng Gao: A novel lateral shearing interferometer and its anti-vibration characteristic for on-machine precision surface measurement, OPTIK, 127, 14, pp. 5729-5737, 2016.
  7. Tianyu Yu, Ashraf F. Bastawros, Abhijit Chandra: EXPERIMENTAL CHARACTERIZATION OF ELECTROPLATED CBN GRINDING WHEEL WEAR: TOPOLOGY EVOLUTION AND INTERFACIAL TOUGHNESS, Proceedings of 9th ASME International Manufacturing Science and Engineering Conference (MSEC2014), Detroit, MI, USA, 1, V001T01A005JUN 2014
  8. Wei Liu, Zhaohui Deng, Linlin Wan et al.: Progress of Researches on the Surface Topography Detection Techniques for Grinding Wheel, Advanced Materials Research (ADVANCES IN ABRASIVE TECHNOLOGY XVI), 797, p. 505 2013
  9. Vipin Gopan, S. Ragavanantham, S. Sampathkumar: Condition Monitoring of Grinding Proceedings of International Conference on Machine Vision and Image Processing (MVIP), Taipei, TAIWAN, pp. 177-180, DEC 2012
  10. Wei Liu, Zhaohui Deng, Linlin Wan et al.: Research Progress of On-line measurement and Compensation Technology about Grinding Wheel Wear, Advanced Materials Research, 565, ADVANCES IN ABRASIVE TECHNOLOGY XV, p. 190 2012
  11. J. Xie, F. Zhang, H. F. Xie: 3D Noise Generation and Removal of Measured Grinding Wheel Topography Using a White Light Interferometer, Key Engineering Materials (ADVANCES IN GRINDING AND ABRASIVE TECHNOLOGY XVI), 487, pp. 386-390, 2011
  12. Hao Huang, Xiangyang Lei, Qiao Xu et al.: On-Machine Profile Measurement of Arc Grinding Wheel in 3-Axis Machine Using Non-Contact Displacement Sensor, Applied Mechanics and Materials (ADVANCES IN ENGINEERING DESIGN AND OPTIMIZATION), 37-38, p. 773, 2011
  13. J. C. Su, Y. S. Tarng: Measuring wear of the grinding wheel using machine vision, INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 31, 1-2, pp. 50-60, NOV 2006

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by Katsushi Furutani