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Journal of Materials Processing Technology
Volume 113, Issues 1-3 , 15 June 2001, Pages 373-377

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doi:10.1016/S0924-0136(01)00675-6    How to Cite or Link Using DOI (Opens New Window)  
Copyright © 2001 Elsevier Science B.V. All rights reserved.

A finite element model for the orthogonal cutting of fiber-reinforced composite materials

Mofid Mahdi and Liangchi ZhangCorresponding Author Contact Information, E-mail The Corresponding Author

Department of Mechanical and Mechatronic Engineering, The University of Sydney, Sydney, NSW 2006, Australia

Available online 31 May 2001.


Abstract

The tendency towards increased automation of composite cutting operations stimulates the investigation of cutting force evaluation. Different from the conventional method of modeling, which often assumes a continuous chip formation with a predefined separation layer, this study considered the chip breaking and developed a 2D cutting force model with the aid of the finite element method. The variation of the cutting force was investigated carefully against both the cutting conditions and the anisotropy of the material with the following development: (a) a constitutive model of a homogeneous anisotropic elastic material under plane deformation; (b) a failure model of the work-material based on the Tsai–Hill criterion; and (c) a contact model of the mechanisms of the cutting process. A comparison with experimental measurements showed that the constitutive model leads to a reasonable prediction.

Author Keywords: Finite element method; Orthogonal cutting; Anisotropic composite


Corresponding Author Contact Information Corresponding author. Fax: +61-29351-3760; email: [email protected]



This Document
Abstract
Full Text + Links
PDF (122 K)
Actions
E-mail Article
Journal of Materials Processing Technology
Volume 113, Issues 1-3 , 15 June 2001, Pages 373-377


 
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