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Abstract

The natural fiber-reinforced composites are emerging as a possible replacement to glass fiber composite for low-cost applications. Of the various machining process, drilling is one of the most common machining processes used for the assemblage of various parts. During drilling process, composites undergo delamination phenomenon that reduces the structural reliability of the component. The present work focuses on the analysis of delamination behaviour as a function of drilling process parameters at the entrance and exit of the composite plates. In this work, drilling was carried out by varying the feed (0.1, 0.2, 0.3 mm/rev) and speed (500, 1000, 1500 and 2000 r/min), respectively. The drill bit used is made of high-speed steel of a diameter of 10 mm. The quality of the hole drilled was assessed using the machine vision technique, and the extent of delamination was carried out using the ultrasonic C-scan imaging method. The experimentally observed delamination factor was compared with ANOVA technique and found that the feed rate affect the delamination than speed. A correlation between the parameters of interest was carried out using multi-variable linear regression analysis technique.

Keywords

Drilling natural fibers C-scan ANOVA

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References

Stone

Krishnamurthy

. A neural network thrust force controller to minimize delamination during drilling of graphite-epoxy laminates. J Mach Tools Manuf 1996; 36: 985–1003.

Zitoune

Collombet

. Numerical prediction of the thrust force responsible of delamination during the drilling of the long-fibre composite structures. Compos Part A 2007; 38: 858–866.

Singh

Nayak

Saxena

. Drilling induced damage in FRP composite laminates. IE(I) Journal-MM 2004; 85: 37–40.

Ravishankar

Murthy

CRL

. Characteristics of AE signals obtained during drilling composite laminates. J Non Destruct Eval 2000; 33: 341–348.

Lachaud

Picquet

Collembet

. Drilling of composite structures. Compos Struct 2001; 52: 511–516.

Hocheng

Tsao

. Comprehensive analysis of delamination in drilling of composite materials with various drill bits. J Mater Process Tech 2003; 140: 335 339.

Khashaba

. Delamination in drilling GFR-thermoset composites. Compos Struct 2004; 63: 313–327.

Tsao

Hocheng

. Taguchi analysis of delamination associated with various drill bits in drilling of composite material. Int J Mach Tool Manu 2004; 44: 1085–1090.

Hocheng

Tsao

. The path towards delamination-free drilling of composite materials. J Mater Process Tech 2005; 167: 251–264.

10.

Tsao

Hocheng

. Computerized tomography and C-Scan for measuring delamination in the drilling of composite materials using various drills. Int J Mach Tool Manu 2005; 45: 1282–1287.

11.

Mohan

Ramachandra

Kulkarni

. Influence of process parameters on cutting force and torque during drilling of glass–fiber polyester reinforced composites. Compos Struct 2005; 71: 407–413.

12.

Palanikumar

Paulo Davim

. Mathematical model to predict tool wear on the machining of glass Fiber reinforced plastic composites. Mater Des 2007; 28: 2008–2014.

13.

Tsao

Hocheng

. Effect of tool wear on delamination in drilling composite materials. Int J Mech Sci 2007; 49: 983–988.

14.

Velayudham

Krishnamurthy

Soundarapandian

. Evaluation of drilling characteristics of high volume fraction fiberglass reinforced polymeric composite. Int J Mach Tool Manu 2005; 45: 399–406.

15.

Abrao

Faria

Campos Rubio

. Drilling of fibre reinforced plastics: A review. J Mater Process Tech 2007; 186: 1–7.

16.

Davim

Rubio

Abrao

. A novel approach based on digital image analysis to evaluate the delamination factor after drilling composite laminates. Compos Sci Technol 2007; 67: 1939–1945.

17.

Karnik

Gaitonde

Campos Rubio

. Delamination analysis in high speed drilling of carbon fiber reinforced plastics (CFRP) using artificial neural network model. Mater Des 2008; 29: 1768–1776.

18.

Tsao

Hocheng

. Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network. J Mater Process Tech 2008; 203: 342–348.

19.

Shyha

Soo

Aspinwalla

. Effect of laminate configuration and feed rate on cutting performance when drilling holes in carbon fiber reinforced plastic composites. J Mater Process Tech 2010; 210: 1023–1034.

20.

Palanikumar

. Experimental investigation and optimisation in drilling of GFRP composites. Measurement 2011; 44: 2138–2148.

21.

Krishnaraj

Prabukarthi

Ramanathan

. Optimization of machining parameters at high speed drilling of carbon fibre reinforced plastic (CFRP) laminates. Compos Part B 2012; 43: 1791–1799.

22.

Rubio

Abrao

Faria

. Effects of high speed in the drilling of glass fibre reinforced plastic: evolution of the delamination factor. Int J Machine Tools Manuf 2008; 48: 715–720.

23.

Davim

Rubio

Abrao

. A novel approach based on digital analysis to evaluate the delamination factor after drilling composite laminates. Compos Sci Technol 2007; 67: 1939–1945.

24.

Davim

. Machining composite materials, London: ISTE-Wiley, 2009.

Hole quality evaluation of natural fiber composite using image analysis technique

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