PSI - Issue 72

Miloš Vorkapić et al. / Procedia Structural Integrity 72 (2025) 470 – 478

478

References

Ahmed, H., Hussain, G., Gohar, S., Ali, A., Alkahtani, M., 2021. Impact toughness of hybrid carbon fiber-PLA/ABS laminar composite produced through fused filament fabrication. Polymers, 13(18), 3057 Al Zahmi, S., Alhammadi, S., ElHassan, A., & Ahmed, W., 2022. Carbon fiber/PLA recycled composite. Polymers, 14(11), 2194 Alkabbanie, R., Aktas, B., Demircan, G. et al. 2024, Short carbon fiber-reinforced PLA composites: influence of 3D-printing parameters on the mechanical and structural properties. Iran Polym J 33, 1065 – 1074. https://doi.org/10.1007/s13726-024-01315-8 Ansari, A. A., & Kamil, M., 2022. Izod impact and hardness properties of 3D printed lightweight CF-reinforced PLA composites using design of experiment. International Journal of Lightweight Materials and Manufacture 5(3), 369-383 Cai, Y., Lv, J. & Feng, J, 2013,. Spectral Characterization of Four Kinds of Biodegradable Plastics: Poly (Lactic Acid), Poly (Butylenes Adipate Co-Terephthalate), Poly (Hydroxybutyrate-Co-Hydroxyvalerate) and Poly (Butylenes Succinate) with FTIR and Raman Spectroscopy. J Polym Environ 21, 108 – 114, https://doi.org/10.1007/s10924-012-0534-2 Chalgham, A., Ehrmann, A., Wickenkamp, I., 2021. Mechanical properties of FDM printed PLA parts before and after thermal treatment. Polymers 13(8), 1239 El-Deeb, I.S., Petrov, M.A., Grabowik, C., Esmael, E.G., Rashad, M., Ebied, S., 2024. Mechanical Properties of PLA Printed Samples in Different Printing Directions and Orientations Using Fused Filament Fabrication, Part 1: Methodology. In: Burduk, A., Batako, A.D.L., Machado, J., Wyczółkowski, R., Dostatni, E., Rojek, I. (eds) Intelligent Systems in Production Engineering and Maintenance II I. ISPEM 2023. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-031-44282-7_49 Ferreira, R. T. L., Amatte, I. C., Dutra, T. A., Bürger, D., 2017. Experimental characterization and micrography of 3D printed PLA and PLA reinforced with short carbon fibers. Composites Part B: Engineering 124, 88-100 Investigation of Polymers with Differential Scanning Calorimetry, Humboldt Universitat zu Berlin, 2020 ISO 527-2, Plastics – Determination of Tensile Properties – Part 2: Test Conditions for Moulding and Extrusion Plastics, 2012 Jamadar, I. M., Kamate, P., & Samal, P. K., 2024. Evaluation of fatigue characteristics of 3D printed/composites reinforced with carbon fiber using design of experiments. Polymer Composites 45(18), 17134-17149 Jin, P., Pan, T., Li, Y., Zhong, T., Jiang, J., Pu, C., & Ma, C., 2024. Performance and Thermal Properties of 3D Printed CF-Reinforced PLA Monofilaments. Coatings 14(12), 1479. https://doi.org/10.3390/coatings14121479 Li, Y., Gao, S., Dong, R., Ding, X., & Duan, X., 2018. Additive manufacturing of PLA and CF/PLA binding layer specimens via fused deposition modeling. Journal of Materials Engineering and Performance 27, 492-500 Liampas, S., Kladovasilakis, N., Tsongas, K., & Pechlivani, E. M., 2024. Recent Advances in Additive Manufacturing of Fibre-Reinforced Materials: A Comprehensive Review. Applied Sciences 14(22), 10100 Magri, A. E., El Mabrouk, K., Vaudreuil, S., & Touhami, M. E., 2021. Mechanical properties of CF-reinforced PLA parts manufactured by fused deposition modeling. Journal of Thermoplastic Composite Materials 34(5), 581-595 Magri, A. E., El Mabrouk, K., Vaudreuil, S., & Touhami, M. E., 2021. Mechanical properties of CF-reinforced PLA parts manufactured by fused deposition modeling. Journal of Thermoplastic Composite Materials 34(5), 581-595 Malbašić, S., Živković, S., Nedić, B., Đorđević A., Grubić, A. , 2023. Process Planning and Optimization Techniques in Additive Manufacturing, Scientific Technical Review 73(2) 33-41, doi: 10.5937/str2302033M Milovanović, A., Sedmak, A., Paunić, M., Mitrović, A., Popović, M., Milošević, M. , 2024, Tensile properties of pure PLA polymer dedicated for additive manufacturing, Structural Integrity and Life 24(3), 263 – 268 Ogaili, A. A. F., Basem, A., Kadhim, M. S., Al-Sharify, Z. T., Jaber, A. A., Njim, E. K., ... Al-Ameen, E. S., 2024. The effect of chopped carbon fibers on the mechanical properties and fracture toughness of 3d-printed PLA parts: An experimental and simulation study. Journal of Composites Science 8(7), 273 Oksman, K., Skrifvars, M., & Selin, J. F., 2003. Natural fibres as reinforcement in polylactic acid (PLA) composites. Composites science and technology 63(9), 1317-1324 Pathek, I.A., da Silva, J.R.F., Lima, D.D. et al. 2024, Assessment of carbon fiber incorporation effects on overall characteristics and properties of 3D-printed PLA. J Braz. Soc. Mech. Sci. Eng. 46, 640 (2024). https://doi.org/10.1007/s40430-024-05233-x Pazhamannil, R. V., Govindan, P., Edacherian, A., & Hadidi, H. M., 2024. Impact of process parameters and heat treatment on fused filament fabricated PLA and PLA-CF. International Journal on Interactive Design and Manufacturing (IJIDeM), 18(4), 2199-2213 Plamadiala, I., Croitoru, C., Pop, M. A., & Roata, I. C., 2025. Enhancing Polylactic Acid (PLA) Performance: A Review of Additives in Fused Deposition Modelling (FDM) Filaments. Polymers 17(2), 191 Tripathi, N., Misra, M., & Mohanty, A. K., 2021. Durable polylactic acid (PLA)-based sustainable engineered blends and biocomposites: Recent developments, challenges, and opportunities. ACS Engineering Au 1(1), 7-38 Wang, A., Tang, X., Zeng, Y., Zou, L., Bai, F., & Chen, C., 2024. Carbon fiber-reinforced PLA composite for fused deposition modeling 3D printing. Polymers 16(15), 2135 ASTM D256-23-1 Standard test methods for determining the izod pendulum impact resistance of plastics ASTM Int. 08.01 ASTM D638-22, Standard Test Method for Tensile Properties of Plastics, 2022