1. Lay, M., Thajudin, N.L.N., Hamid, Z.A.A., Rusli, A., Abdullah, M.K., and Shuib, R.K., Comparison of physical and mechanical properties of PLA, ABS and nylon 6 fabricated using fused deposition modeling and injection molding. Composites Part B: Engineering, vol. 176, pp. 107341, 2019. 2. Wang S., Ma Y., Deng Z., Zhang S., andCai J.Effects of fused deposition modeling process parameters on tensile, dynamic mechanical properties of 3D printed polylactic acid materials. Polymer testing, vol. 86, pp. 106483, 2020. 3. Grant A., Regez B., Kocak S., Huber J.D., andMooers A.Anisotropic properties of 3-D printed Poly Lactic Acid (PLA) and Acrylonitrile Butadiene Styrene (ABS) plastics. Results in Materials, vol. 12, pp. 100227, 2021. 4. Xu, Z., Fostervold, R. and Razavi, S.M.J. Thickness effect on the mechanical behavior of PLA specimens fabricated via Fused Deposition Modeling.Procedia Structural Integrity, vol. 33, pp. 571-577, 2021. 5. Zhao, Y., Chen, Y. and Zhou, Y.Novel mechanical models of tensile strength and elastic property of FDM AM PLA materials: Experimental and theoretical analyses. Materials & Design, vol. 181, pp. 108089, 2019. 6. Adi, P., Damir. H., and Aleksa, M. Effect of infill type and density on tensile properties of PLA material for FDM process DOI:10.2507/ 30th.daaam.proceedings.xxx INTERNATIONAL SYMPOSIUM ON INTELLIGENT MANUFACTURING AND AUTOMATION, vol. 163, pp. 393-402, 2019. 7. Chalgham, A., Ehrmann, A. and Wickenkamp, I.Mechanical properties of FDM printed PLA parts before and after thermal treatment. Polymers, vol. 13, no. 8, pp. 1239, 2021. 8. Vosynek P., Navrat T., Krejbychova A., andPalousek D.Influence of process parameters of printing on mechanical properties of plastic parts produced by FDM 3D printing technology. In MATEC web of conferences, EDP Sciences, vol. 237, pp. 02014, 2018. 9. Baca Lopez, D.M. and Ahmad, R. Tensile mechanical behaviour of multi-polymer sandwich structures via fused deposition modelling. Polymers, vol. 12, no. 3, pp. 651, 2020. 10. Vinoth Babu, N., Venkateshwaran, N., Rajini, N., Ismail, S.O., Mohammad, F., Al-Lohedan, H.A. and Suchart, S. Influence of slicing parameters on surface quality and mechanical properties of 3D-printed CF/PLA composites fabricated by FDM technique. Materials Technology, vol. 37, no. 9, pp. 1008-1025, 2022. 11. Dudescu, C. and Racz, L.Effects of raster orientation, infill rate and infill pattern on the mechanical properties of 3D printed materials. ACTA Univ. Cibiniensis, vol. 69, no. 1, pp. 23-30, 2017. 12. Mishra P.K., Senthil P., Adarsh S., andAnoop M.S.An investigation to study the combined effect of different infill pattern and infill density on the impact strength of 3D printed polylactic acid parts. Composites Communications, vol. 24, pp. 100605, 2021. 13. Gebisa, A.W. and Lemu, H.G. Influence of 3D printing FDM process parameters on tensile property of ULTEM9085. Procedia Manufacturing, vol. 30, pp. 331-338, 2019. 14. Wang S., Ma Y., Deng Z., Zhang S. and Cai J.Effects of fused deposition modeling process parameters on tensile, dynamic mechanical properties of 3D printed polylactic acid materials. Polymer testing, vol. 86, pp. 106483, 2020. 15. Gohar S., Hussain G., Ali A., andAhmad H.Mechanical performance of honeycomb sandwich structures built by FDM printing technique.Journal of Thermoplastic Composite Materials, pp. 0892705721997892, 2021. 16. Durgun, I. and Ertan, R.Experimental investigation of FDM process for improvement of mechanical properties and production cost.Rapid Prototyping Journal, 2014. 17. Lu C., Qi M., Islam S., Chen P., Gao S., Xu Y., andYang X.Mechanical performance of 3D-printing plastic honeycomb sandwich structure. International Journal of Precision Engineering and Manufacturing-Green Technology, vol. 5, no. 1, pp. 47-54, 2018. 18. Mohan R.G., Santhosh K., Iyer R.V., John L.K., andRamu M.Comparitive analysis of mechanical properties of FDM printed parts based on raster angles. Materials Today: Proceedings, vol. 47, pp. 4730-4734, 2021. 19. Yao T., Deng Z., Zhang K., andLi S.A method to predict the ultimate tensile strength of 3D printing polylactic acid (PLA) materials with different printing orientations. Composites Part B: Engineering, vol. 163, pp. 393-402, 2019. |