References
- Wang, X., M. Jiang, Z. Zhou, J. Gou, and D. Hui. 2017. 3D printing of polymer matrix composites: a review and prospective. Comp. B 110:442–458.
- Melenka, G. W., B. K. O. Cheung, J. S. Schofield, D. Michael R, and C. Jason P. 2016. Evaluation and prediction of the tensile properties of continuous fiber-reinforced 3D printed structures. Comp. Struc. 153:866–875.
- Le Duigou, A., M. Castro, R. Bevan, and N. Martin. 2016. 3D printing of wood fibre biocomposites: from mechanical to actuation functionality. Mater. Des. 96:106–114.
- Wang, J., H. Xie, Z. Weng, T. Senthil, and L. Wu. 2016. A novel approach to improve mechanical properties of parts fabricated by fusion deposition modeling. Mater. Des. 105:152–159.
- Tian, X., T. Liu, C. Yang, Q. Wang, and D. Li. 2016. Interface and performance of 3D printed continuous carbon fiber reinforced PLA composites. Comp. A 88:198–205.
- Ning, F., W. Cong, J. Qiu, J. Wei, and S. Wang. 2015. Additive manufacturing of carbon fiber reinforced thermoplastic composites using fusion deposition modeling. Comp. B 80:369–378.
- Kumar, S., and J. P. Kruth. 2010. Composites by rapid prototyping technology. Mater. Des. 31:850–856.
- Dudek, P. 2013. FDM 3D printing technology in manufacturing composite elements. Arch. Metall. Mater. 58:0186.
- Mangat, A. S., and S. Singh. 2018. Characterization of natural fibre-embedded biodegradable porous structures prepared with fused deposition process. J. Therm. Comp. Mater. 32:761–777.
- Tekinalp, H. L., V. Kunc, G. M. Velez-Garcia, C. E. Duty, L. J. Love, A. K. Naskar, C. A. Blue, and S. Ozcan. 2014. Highly oriented carbon fiber–polymer composites via additive manufacturing. Comp. Sci. Technol. 105:144–150.
- Behnam, A., Amir H., B. Vehravesh, and A. B. Saed. 2018. Improving mechanical properties of continuous fiber – reinforced thermoplastic composites produced by FDM printer. J. Reinf. Plast. Comp. 38:99–116.
- Rajkumar, D. R., K. P. Padmanaban, and R. Raj. 2018. Optimisation of free vibration analysis on structural plates of fibre reinforced laminated composites. Int. J. Rapid Manufactur. 8:65–76.
- Hadley, B., D. Tyas, and S. Molony. 2017. Tensile and fatigue failure of 3D printed with continuous fiber reinforcement. Int. J. Rapid Manufactur. 6:97–110.
- Papon, E. A., and A. Haque. 2018. Tensile properties, void contents, dispersion and fracture behavior of 3D printed carbon nanofiber reinforced composites. J. Reinf. Plast. Comp. 37:381–395.
- Lind, D. A., W. G. Marchal, and S. A. Wathen. 2016. Statistical Techniques in Business & Economics. New York: McGraw Hill Education.
- Adrian, J., and A. Maria. 2018. Influence of manufacturing parameters on the mechanical behavior of PLA and ABS pieces manufactured by FDM: a comparative analysis. Materials 11:1333.
- Vishnu, V., and D. Kumar. 2018. Additive manufacturing of honey comb structure and analysis of infill and materials characteristics. Int. J. Sci. Res. Rev. 7: