Abstract

This work utilizes the mechanistic modeling approach for predicting cutting forces and simulating the milling process of fiber-reinforced polymers (FRP) with a straight cutting edge. Specific energy functions were developed by multiple regression analysis (MR) and committee neural network approximation (CN) of milling force data and a cutting model was developed based on these energies and the cutting geometry. It is shown that both MR and CN models are capable of predicting the cutting forces in milling of unidirectional and multidirectional composites. Model predictions were compared with experimental data and were found to be in good agreement over the entire range of fiber orientations from 0 to 180°. Furthermore, CN model predictions were found to greatly outperform MR model predictions.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Model for predicting cutting forces in machining CFRP
Jamal Sheikh Ahmad ... Rahul Yadav
International Journal of Materials and Product Technology | VOL. 32
Jamal Sheikh Ahmad, et. al.Jamal Sheikh Ahmad ... Rahul Yadav
01 Jan 2008
Cutting force prediction in milling CFRPs with complex cutter geometries
Jamal Sheikh-Ahmad ... Lei Qin
Journal of Manufacturing Processes | VOL. 45
Jamal Sheikh-Ahmad, et. al.Jamal Sheikh-Ahmad ... Lei Qin
20 Aug 2019
Elastic and plastic fracture metals, polymers, ceramics, composites and biological materials: A. G. Atkins and Y.-W. Mai Ellis Horwood, 1985, 819 pp, £75.00
A Halstead
International Journal of Fatigue | VOL. 9
A HalsteadA Halstead
01 Jul 1987
Prediction of cutting forces in helical end milling fiber reinforced polymers
Devi Kalla ... Janet Twomey
International Journal of Machine Tool Design and Research | VOL. 50
Devi Kalla, et. al.Devi Kalla ... Janet Twomey
30 Jun 2010
View more papers

More From: Machining Science and Technology

Paper Title
Journal
Date
Author
Novel insights into conventional machining of metal additive manufactured components: a comprehensive review
Prameet Vats ... Kishor Kumar Gajrani
Machining Science and Technology | VOL. ahead-of-print
Prameet Vats, et. al.Prameet Vats ... Kishor Kumar Gajrani
22 Jul 2024
Flow field design and simulation in electrochemical machining for closed integral components
Liyong Chen ... Mingzhu Ren
Machining Science and Technology | VOL. ahead-of-print
Liyong Chen, et. al.Liyong Chen ... Mingzhu Ren
17 Jul 2024
Multiobjective optimization of end milling parameters for enhanced machining performance on 42CrMo4 using machine learning and NSGA-III
Van-Hai Nguyen ... Nhu-Tung Nguyen
Machining Science and Technology | VOL. ahead-of-print
Van-Hai Nguyen, et. al.Van-Hai Nguyen ... Nhu-Tung Nguyen
17 Jul 2024
Numerical modeling of heat flux in ultrasonic-assisted grinding of difficult-to-cut materials with a pressurized lubrication system
Aswani Kumar Singh ... Varun Sharma
Machining Science and Technology | VOL. ahead-of-print
Aswani Kumar Singh, et. al.Aswani Kumar Singh ... Varun Sharma
05 Jul 2024
View more papers