Sage Journals: Discover world-class research

Abstract

This study investigates the effects of drilling and punching parameters on cutting forces and delamination factors in ±45° oriented glass fiber-reinforced polymer (GFRP) composites. The GFRP laminates were produced using a hand lay-up method with a 600 g/m² woven biaxial fabric and Polives 701 vinyl ester resin, resulting in 2.3 mm thick laminates. The study aims to optimize machining processes by examining the influence of feed rates, cutting speeds, and punch types on the cutting forces and delamination. Symbolic regression was used to analyze the experimental data and identify key parameters. Results show that in drilling, the delamination factor increases with feed rate and exhibits a non-linear behavior with cutting speed. Feed rate was identified as the primary factor influencing cutting forces, while cutting speed significantly affected delamination at the hole entrance. In punching, higher cutting forces were observed with flat punches, and punch type was the main factor affecting both cutting forces and delamination. Delamination factors at the hole exit were higher than at the entrance, increasing with both feed rate and cutting speed in drilling, and with feed rate in punching. Symbolic regression models accurately predicted the experimental results.

Keywords

Delamination factor glass fibers machining statistical properties/methods

Get full access to this article

View all access options for this article.

References

Kannan

Sharma

Kumar

. Experimental investigations on drilling of GFRP composite using solid and hollow drill point geometry. In: International conference on engineering, construction, renewable energy, and advanced materials, Barcelona, Spain, 5–7 May 2022.

Solati

Hamedi

Safarabadi

. Combined GA-ANN approach for prediction of HAZ and bearing strength in laser drilling of GFRP composite. Opt Laser Technol 2019; 113: 104–115.

Solati

Hamedi

Safarabadi

. Comprehensive investigation of surface quality and mechanical properties in CO₂ laser drilling of GFRP composites. Int J Adv Manuf Technol 2019; 102: 791–808.

Dhilipkumar

Rajesh

. Influence of manufacturing process and GFRP pin loading on shear and dynamic behaviour of composite joints. J Adhes 2022; 99: 538–557.

Pereszlai

Geier

Poor

, et al. Drilling fibre reinforced polymer composites (CFRP and GFRP): an analysis of the cutting force of the tilted helical milling process. Compos Struct 2021; 262: 113646.

Prasanth

Ravishankar

Manzoor Hussain

, et al. Influence of milling process parameters and significance of tools to improve the surface quality of GFRP composites. Mach Sci Technol 2022; 26: 120–136.

Kilickap

. Optimization of cutting parameters on delamination based on Taguchi method during drilling of GFRP composite. Expert Syst Appl 2010; 37: 6116–6122.

Sivaprasad

Chaitanya

. Analysis of delamination in drilling of GFRP composites using Taguchi Technique. Mater Today Proc 2019; 18: 3252–3261.

Palanikumar

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

10.

, et al. Study of drilling-induced defects for CFRP composites using new criteria. Compos Struct 2018; 201: 1076–1087.

11.

Geier

, et al. Experimental study of drilling behaviors and damage issues for woven GFRP composites using special drills. J Mater Res Technol 2022; 21: 1256–1273.

12.

Erturk

Vatansever

Yarar

, et al. Effects of cutting temperature and process optimization in drilling of GFRP composites. J Compos Mater 2021; 55: 235–249.

13.

Singaravel

Radhika

Mohammed Asif

, et al. Analysis of hole quality errors in drilling of GFRP composite. IOP Conf Ser Mater Sci Eng 2021; 1057: 012069.

14.

Sahami poor dehghan

Heidary

. Parametric study on drilling of GFRP composite pipe produced by filament winding process in different backup condition. Compos Struct 2020; 234: 111661.

15.

Abdullah

Chan

Zain

, et al. Precision punching: a new method in hole-making on composite panels. In: Hole-making and drilling technology for composites. Amsterdam, Netherlands: Elsevier, 2019, pp. 115–133.

16.

Ivana

. Handbook of die design. New York, NY: McGraw-Hill Publishing, 2006, pp. 385–457.

17.

Arul

Vijayaraghavan

Malhotra

, et al. Influence of tool material on dynamics of drilling of GFRP composites. Int J Adv Manuf Technol 2006; 29: 655–662.

18.

Davim

Reis

António

. Experimental study of drilling glass fiber reinforced plastics (GFRP) manufactured by hand lay-up. Compos Sci Technol 2004; 64: 289–297.

19.

Ferreira

. Gene expression programming: a new adaptive algorithm for solving problems. ArXiv Preprint arXiv:cs/0102027, 2001.

20.

Çelik

Fidan

. Analysis of cutting parameters on tool wear in turning of Ti-6Al-4V alloy by multiple linear regression and genetic expression programming methods. Measurement 2022; 200: 111638.

21.

Yazman

. The effects of back-up on drilling machinability of filament wound GFRP composite pipes: mechanical characterization and drilling tests. J Manuf Process 2021; 68: 1535–1552.

22.

John

Thirumalai Kumaran

Kurniawan

, et al. Evaluation of thrust force and delamination in drilling of CFRP by using active spring restoring backup force. Mater Today Proc 2022; 49: 269–274.

23.

Gemi

Morkavuk

Köklü

, et al. An experimental study on the effects of various drill types on drilling performance of GFRP composite pipes and damage formation. Compos B Eng 2019; 172: 186–194.

24.

Ceritbinmez

Yapıcı

. An investigation of punching the MWCNTs doped composite plates by using different cutting profiles. Teh Vjesn 2021; 28: 385–390.

25.

Kumar

Singh

Zitoune

. Experimental investigation of delamination and surface roughness in the drilling of GFRP composite material with different drills. Adv Manuf Polym Compos Sci 2016; 2: 47–56.

26.

Gemi

Köklü

Yazman

, et al. The effects of stacking sequence on drilling machinability of filament wound hybrid composite pipes: part-1 mechanical characterization and drilling tests. Compos B Eng 2020; 186: 107787.

27.

Kalita

Ghadai

Bansod

. Sensitivity analysis of GFRP composite drilling parameters and genetic algorithm-based optimisation. Int J Appl Metaheuristic Comput (IJAMC) 2022; 13: 1–17.

28.

Steiger

. Tests for comparing elements of a correlation matrix. Psychol Bull 1980; 87: 245–251.

Symbolic regression analysis of cutting force and delamination in drilling and punching of GFRP composites

Abstract

Keywords

Get full access to this article

References