Effect of Fibre Position and Proportion on the Machinability of GFRP Composites-An FEA and Merchant’s Model

D. Abdul Budan*, S. Vijarangan**, Subramaniam Arunachalam***, Tom Page****
* University BDT College of Engineering, Davangere, Karnataka, India.
** PSG College of Technology, Coimbatore, Tamilnadu, India.
*** School of Computing and Technology, University of East London, UK.
**** Design and Technology, Loughborough University, UK.
Periodicity:August - October'2009
DOI : https://doi.org/10.26634/jfet.5.1.1017

Abstract

More commonly considered criteria for judging the machinability are the cutting forces on the tool and power consumption. A classical Merchant’s model is widely used to predict the cutting forces while machining isotropic material. However no such model exists to predict the cutting forces while machining orthotropic materials. In this paper an effort is made to modify the Merchant’s formula by incorporating the K-factor to evaluate the shear strength, the fiber orientation as shear angle and a constant coefficient of friction. The cutting forces evaluated by modified Merchant’s model on unidirectional GFRP composite material has been compared with the results predicted by two-dimensional FEA model. In FEA model both maximum stress and Tsai-Hill failure criteria were used to simulate the chip separation. The influence of composite design, in particular the fiber proportion and orientation on cutting forces has been investigated. The higher fiber proportion of the composite results in increased cutting forces. Fiber angles 450 and 600 have shown favorable results. The predicted principal cutting forces by FEA agree well with the results evaluated by modified Merchant’s model.

Keywords

Machining, Composites, GFRP, Merchant’s, FEA.

How to Cite this Article?

Budan, D. A., Vijarangan, S., Arunachalam, S., and Page, T. (2009). Effect Of Fibre Position And Proportion On The Machinability Of GFRP Composites - An FEA and Merchant's Model. i-manager’s Journal on Future Engineering and Technology, 5(1), 33-43. https://doi.org/10.26634/jfet.5.1.1017

References

[1]. Lin, Z.C. and Lin, S.Y. 1992 'A Coupled Finite Element Model of Thermo-Elastic-Plastic Large Deformation for Orthogonal Cutting'. Transaction of ASME, Jnl of Engineering materials and Technology. Vol.114,. pp.218- 226.
[2]. Wang, D.H., Ramulu, M. and Arola, D. 1995. 'Orthogonal cutting mechanisms of Graphite/Epoxy Composite. Part-I: Unidirectional Laminate'. Int. Jl of M/c Tools & Manufacture Vol.35. pp.1623-1638.
[3]. Wang, D.H., Ramulu, M. and Arola, D. 1995. 'Orthogonal cutting mechanisms of Graphite/Epoxy Composite. Part-II: Multi-directional laminate'. Int. Jnl of M/c Tools & Manufacture.Vol.35.pp.1639-1648.
[4]. Wern, C. W., Ramulu, M. and Shukla A. 1995 'Investigation of Stresses in the Orthogonal Cutting of Fibre reinforced Plastics.' Experimental Mechanics. pp.33-41.
[5]. Caprino, G., De lorio, I., Nele L. and Santo L. 1996 'Effect of tool wear on cutting forces in orthogonal cutting of unidirectional glass fibre-reinforced plastics.'. Composites Part A. 27A. pp. 409-415.
[6]. Caprino, G. and Santo L. and Nele. L. 1998 "Interpretation of size effect in orthogonal machining of composite materials". Part-I unidirectional glass fibre reinforced plastics." Composites Part A. 29A. pp. 887-892.
[7]. Caprino G. and Santo L. and Nele. L. 1998. 'Interpretation of size effect in orthogonal machining of composite materials. Part-II Sheet molding compound.' Composites Part A.29 A.1998. pp.891-897.
[8]. Arola D. and Ramulu. M. 1997 'Orthogonal cutting of Fibre reinforced Composites A Finite Element Analysis.' Int. J.M/c Tools and Manufacture. Vol.39.No.5..pp.597-613.
[9]. Joshi, S.S., Ramakrishnan, N., Sarathy D. and Ramakrishnan. P. 1997 'Performance of Rotary Carbide Tools in the Intermittent Machining of Al/SiCp Composite'. 17th AIMTDR. REC, Warangal. pp.85-87.
[10]. Lee N-J and Jang. J. 1999 “The Effect of fibre content on the machi9nical properties of glass fibre mat/polypropylene composites”. Composites part-A, 30, , pp.815-822.
[11].Property Data: Polymer Matrix Composites/Data of general Interest. pp.6-56
[12].Timoshenko P. and Young. D. H.1978 Elements of Strength of Materials, 5th edition, Litton Educational Publishing, Inc, New York, USA, , pp.26-27.
If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Single Article

North Americas,UK,
Middle East,Europe
India Rest of world
USD EUR INR USD-ROW
Pdf 35 35 200 20
Online 35 35 200 15
Pdf & Online 35 35 400 25

Options for accessing this content:
  • If you would like institutional access to this content, please recommend the title to your librarian.
    Library Recommendation Form
  • If you already have i-manager's user account: Login above and proceed to purchase the article.
  • New Users: Please register, then proceed to purchase the article.