[1] R. J Crawford, Plastics Engineering, Book • Third Edition • 1998
[2] Yao XF, Bijlaard FS, Kolstein MH, et al. Tensile strength and fracture behaviors of complex GFRP composites with a central hole. J Compos Mater 2005; 39: 1247–1260.
[3] El-Hassan H, El Maaddawy T. Microstructure characteristics of GFRP reinforcing bars in harsh environment. Advances in Materials Science and Engineering, 2019 ;2019:1–19.
[4] Tagliaferri, V., Di Ilio, A., & Visconti, C. (1985). Laser cutting of fibre-reinforced polyesters. Composites, 16(4), 317–325.
[5] Powell J (1998) CO2 laser cutting. Springer, London
[6] Davim JP, Barricas N, Conceição M, Oliveira C (2008) Some experimental studies on CO2 laser cutting quality of polymeric materials. J Mater Process Technol 198(1–3):99–104
[7] Caiazzo F, Curcio F, Daurelio G, Minutolo FMC (2005) Laser cutting of different polymeric plastics (PE, PP and PC) by a CO2 laser beam. J Mater Process Technol 159(3):279–285
[8] Kurt M, Kaynak Y, Bagci E, Demirer H, Kurt M (2009) Dimensional analyses and surface quality of the laser cutting process for engineering plastics. Int J Adv Manuf Technol 41(3–4): 259–267
[9] Moradi, M., Mehrabi, O., Azdast, T. and Benyounis, K.Y., 2017. Enhancement of low power CO2 laser cutting process for injection molded polycarbonate. Optics & Laser Technology. 96:208–218.
[10] Davari, M. and Hashemzadeh, M. 2018. The effect of bronze particles on CO2 laser cutting of reinforced polytetrafluoroethylene. Int J Adv Manuf Technol. 96:4029–4039.
[11] E. Kannatey-Asibu. Principles of laser materials processing, John Wiley & Sons, USA, 2009.
[12] Riveiro, A., Quintero, F., Lusquiños, F., del Val, J., Comesaña, R., Boutinguiza, M., & Pou, J. (2012). Experimental study on the CO2 laser cutting of carbon fiber reinforced plastic composite. Composites Part A: Applied Science and Manufacturing, 43(8), 1400–1409.
[13] Tagliaferri, V., Di Ilio, A., & Visconti, C. (1985). Laser cutting of fibre-reinforced polyesters. Composites, 16(4), 317–325.
[14] Solati, A., Hamedi, M., & Safarabadi, M. (2019). Comprehensive investigation of surface quality and mechanical properties in CO2 laser drilling of GFRP composites. The International Journal of Advanced Manufacturing Technology, 102, 791–808 (2019).
[15] Tamrin, K. F., Moghadasi, K., & Sheikh, N. A. (2020). Experimental and numerical investigation on multi-pass laser cutting of natural fibre composite. The International Journal of Advanced Manufacturing.
[16] Nagesh, S., Narasimha Murthy, H. N., Pal, R., Supreeth Dev, S. D., & Krishna, M. (2016). Investigation of the effect of nanofillers on the quality of CO2 laser cutting of FRP nanocomposites. The International Journal of Advanced Manufacturing Technology, 90(5-8), 2047–2061.
[17] Fürst, A., Klotzbach, A., Hühne, S., Hauptmann, J., & Beyer, E. (2013). Remote Laser Processing of Composite Materials with Different Opto–Thermic Properties. Physics Procedia, 41, 389–398.
[18] Khizhnyak, P. E., Chechetkin, A. V., & Glybin, A. P. (1979). Thermal conductivity of carbon black. Journal of Engineering Physics, 37(3),
[19] Bergman T. L., Lavine A. S., Incropera F. P., Dewitt D. P. (2011) Fundamentals of Heat and Mass Transfer, John Wiley & Sons, United States of America
[20] Pocorni, J., Petring, D., Powell, J., Deichsel, E., & Kaplan, A. F. H. (2015). The Effect of Laser Type and Power on the Efficiency of Industrial Cutting of Mild and Stainless Steels. Journal of Manufacturing Science and Engineering, 138(3), 031012.
[21] Hashemzadeh, M., Suder, W., Williams, S., Powell, J., Kaplan, A.F.H., Voisey, K.T. 2014. The Application of Specific Point Energy Analysis to Laser Cutting with 1μm Laser Radiation. Physics Procedia. 56: 909-918