Modeling of dynamic cutting forces and cutting characteristics based on the analyzed results of average force-feed rate relationship in milling process
Publish place: Journal of Computational and Applied Research in Mechanial Engineering، Vol: 12، Issue: 1
Publish Year: 1401
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:
JR_JCARME-12-1_006
تاریخ نمایه سازی: 8 شهریور 1401
Abstract:
Cutting force coefficients (CFCs) are the most important factors in the prediction of CFs (CFs) and other machining characteristics (MCs). This study was conducted to model the CFs and MCs in the milling process based on the calculated values of CFCs. From the relationship of average values of CFs and feed rate, CFCs were determined and used to predict dynamic CFs (DCFs) in the flat milling process. In static models, the average values of CFs were presented as a linear regression of feed rate. The DCFs and other MCs were modeled depending on the cutting parameters, cutter geometry, CFCs, and structure parameters of the machine-tool system. By performing the flat-milling process of gray cast iron GG۲۵ using HSS-Co solid tool, the average CFs were modeled as the linear regression of feed rate with large determination coefficients (R۲ > ۹۳%). Besides, all CFCs of a pairs of tool and workpiece for each cutting type were successfully determined based on the measured data of CFs from the experimental process. Moreover, the proposed models of DCFs were successfully verified based on the compared results between the predicted CFs and measured CFs in several cutting tests with different cutting parameters. The proposed models of cutting force in this study were successfully used to predict the DCFs and several MCs in milling processes using a flat milling tool. And can be used to design and develop tools and machine in industrial manufacturing.
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Authors
Nhu-Tung Nguyen
HaUI Institute of Technology – HIT, Hanoi University of Industry, Vietnam
Dong Pham
Science and Technology Department, Hanoi University of Industry, Vietnam
Dung Hoang
Faculty of Mechanical Engineering, Hanoi University of Industry
Cuong Pham
HaUI Institute of Technology – HIT, Hanoi University of Industry, Vietnam
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