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(2011)
Grinding principle
D. Axinte, P. Butler-Smith, C. Akgun, K. Kolluru (2013)
On the influence of single grit micro-geometry on grinding behavior of ductile and brittle materialsInternational Journal of Machine Tools & Manufacture, 74
D. Anderson, A. Warkentin, R. Bauer (2011)
Experimental and numerical investigations of single abrasive-grain cuttingInternational Journal of Machine Tools & Manufacture, 51
(2009)
Quick query of gear design and practical data
F. Litvin, Ignacio Gonzalez-Perez, A. Fuentes, K. Hayasaka (2008)
Design and investigation of gear drives with non-circular gears applied for speed variation and generation of functionsComputer Methods in Applied Mechanics and Engineering, 197
A. Azizi, Mehrdad Mohamadyari (2015)
Modeling and analysis of grinding forces based on the single grit scratchThe International Journal of Advanced Manufacturing Technology, 78
C. Zanzi, J. Pedrero (2005)
Application of modified geometry of face gear driveComputer Methods in Applied Mechanics and Engineering, 194
(2004)
Gear geometry and applied theory
R. Hecker, S. Liang, Xiao Wu, P. Xia, David Jin (2007)
Grinding force and power modeling based on chip thickness analysisThe International Journal of Advanced Manufacturing Technology, 33
E. Podzharov (2005)
SELECTION OF GEOMETRIC PARAMETERS OF GEAR AND GRINDING WHEEL TO ENSURE MAXIMUM GEAR TOOTH PROFILE ACCURACYMachining Science and Technology, 9
U. Durgumahanti, Vijayender Singh, P. Rao (2010)
A New Model for Grinding Force Prediction and AnalysisInternational Journal of Machine Tools & Manufacture, 50
Hua-Yun You, P. Ye, Jinsong Wang, Xing Deng (2003)
Design and application of CBN shape grinding wheel for gearsInternational Journal of Machine Tools & Manufacture, 43
Tianqing Lin, Yucan Fu, Jiu-hua Xu, Haiyan Li, W. Ding (2015)
The influence of speed on material removal mechanism in high speed grinding with single gritInternational Journal of Machine Tools & Manufacture, 89
Z. Zhong, V. Venkatesh (2009)
Recent developments in grinding of advanced materialsThe International Journal of Advanced Manufacturing Technology, 41
The purpose of the research is to study the form grinding processes and properties of self-developed, new micro-crystal corundum grinding wheels. Aiming at this, this study conducted experimental research and theoretical analysis to form grinding 20CrMnTi steel tooth surfaces by using micro-crystal grinding wheels. The theoretical models and formulae for grinding forces of the form grinding of involute gears were constructed which were able to demonstrate actual experimental situations and show a better theoretical basis and applicability. This research also deduced the relationships between the grinding parameters and the roughness of tooth surfaces, grinding temperature, and grind-hardening burns, which provided constraints for optimally selecting grinding parameters in subsequent work. Furthermore, this study also established the relationship between the tangential grinding forces and the grinding temperature and grind-hardening burns, offering an important reference for the prediction of grinding temperature and avoiding tooth burning through on-line detection of the tangential grinding forces. In addition, this study also described the relationships between the grinding forces and the temperature and roughness of the tooth surfaces with grinding speed, and the radial feed and axial feed rates.
The International Journal of Advanced Manufacturing Technology – Springer Journals
Published: Mar 16, 2017
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