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2012 (Vol. 4, Issue: 22)
Article Information:

Modeling and Analysis for Five-Axis High Speed Milling Process Based on Cutter Optimal Kinematics Performance

Liqiang Zhang, Dazhong Wang and Keyong Wang
Corresponding Author:  Liqiang Zhang 

Key words:  Feedrate scheduling, five-axis, geometric simulation, mechanistic model, , ,
Vol. 4 , (22): 4718-4723
Submitted Accepted Published
March 30, 2012 April 26, 2012 November 15, 2012
Abstract:

The overall goal of the research is the integration of geometric and mechanistic models for cutting process simulation and feedrate optimization. Five-axis milling methods are used in industries such as aerospace, automotive and mold for free-form surface machining. In these process, surface quality and material removal rate are of very important. Conservative cutting parameters have been mostly used since there was a lack of physical models and optimization tools. Part and tool deflections under high cutting forces may result in unacceptable part quality. The extracted cutter workpiece engagements are used as input to a force prediction model. The model predictions for cutting forces and feedrate optimization are compared and verified by experimental results.
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  Cite this Reference:
Liqiang Zhang, Dazhong Wang and Keyong Wang, 2012. Modeling and Analysis for Five-Axis High Speed Milling Process Based on Cutter Optimal Kinematics Performance .  Research Journal of Applied Sciences, Engineering and Technology, 4(22): 4718-4723.
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ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
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