References
- Zmarzły P, Kozior T, Gogolewski D. The effect of non-measured points on the accuracy of the surface topography assessment of elements 3D printed using selected additive technologies. Materials. 2023;16.
- Ghosh B, Karmakar S. 3D printing technology and future of construction: a review. IOP Conf Ser Earth Environ Sci; 2024.
- Kroczek K, Turek P, Mazur D, Szczygielski J, Filip D, Brodowski R, et al. Characterisation of selected materials in medical applications; 2022.
- 4Rwaiha O, Jwaili MA, Rwaiha OM, Ebid E. Novel of 3D printing technology: review. Int J Creative Research Thoughts; 2024.
- Wang Y, Zhu F, Rao Q, Peng X. A 3D finite strain viscoelastic model with uncoupled structural and stress relaxations for shape memory polymers. Polym Test. 2021;103.
- Du Y, Wang P, Liang R, Zhou X, Chen S. Automatic testing system for performance parameters of viscoelastic materials. Int J Comput Sci Inf Technol. 2024;3:103–111.
- Kozior T, Kundera C. Rheological properties of cellular structures manufactured by additive PJM technology. Teh Vjesn. 2021;28: 82–87.
- Wijesinghe S, Perahia D, Ge T, Salerno KM, Grest GS. Stress relaxation of comb polymer melts. Tribol Lett. 2021;69.
- Ibrulj J, Dzaferovic E, Obucina M, Kuzman MK. Numerical and experimental investigations of polymer viscoelastic materials obtained by 3D printing. Polymers (Basel). 2021;13.
- Szot W, Bochnia J, Zmarzły P. Effect of selective laser sintering on stress relaxation in PA12. Polimery. 2024;179–185.
- Bochnia J, Blasiak S. Stress relaxation and creep of a polymer-aluminum composite produced through selective laser sintering. Polymers (Basel). 2020;12.
- Lin CY, Chen YC, Lin CH, Chang KV. Constitutive equations for analyzing stress relaxation and creep of viscoelastic materials based on standard linear solid model derived with finite loading rate. Polymers (Basel). 2022;14.
- Bochnia J. Evaluation of relaxation properties of digital materials obtained by means of PolyJet Matrix technology. Bull Pol Acad Sci Tech Sci. 2018;66:891–897.
- Bochnia J, Kozior T, Szot W, Rudnik M, Zmarzły P, Gogolewski D, et al. Selected mechanical and rheological properties of medical resin MED610 in PolyJet Matrix three-dimensional printing technology in quality aspects. 3D Print Addit Manuf. 2024;11:299–313.
- Stankiewicz A, Juściński S. How to make the stress relaxation experiment for polymers more informative. Polymers (Basel). 2023;15.
- Chepurnenko AS, Kondratieva TN, Al-Wali E. Processing of polymers stress relaxation curves using machine learning methods. 2023.
- Bertocco A, Bruno M, Armentani E, Esposito L, Perrella M. Stress relaxation behavior of additively manufactured polylactic acid (PLA). Materials. 2022;15.
- Stepanov DY, Dontsov YV, Panin SV, Buslovich DG, Alexenko VO, Bochkareva SA, et al. Optimization of 3D printing parameters of high viscosity PEEK/30GF composites. Polymers (Basel). 2024;16.
- Guduru KK, Setti SG. 3D printed carbon fiber reinforced PLA composite using fused deposition modeling by Taguchi’s optimization: influence of printing parameters. Int J Interact Des Manuf. 2024.
- Abed SA, Hassan SR, Jomah AJS, Hanon MM. Prediction on the wear rate of epoxy composites reinforced micro-filler of the natural material residue using Taguchi–neural network. Eureka Phys Eng. 2023;149–159.
- Zubrzycki J, Quirino E, Staniszewski M, Marchewka M. Influence of 3D printing parameters by FDM method on the mechanical properties of manufactured parts. Adv Sci Technol Res J. 2022;16:52–63.
- Vochozka V, Černý P, Šramhauser K, Špalek F, Kříž P, Čech J, et al. Fused filament fabrication 3D printing parameters affecting the translucency of polylactic acid parts. Polymers (Basel). 2024;16:2862.
- Bruère VM, Lion A, Holtmannspötter J, Johlitz M. The influence of printing parameters on the mechanical properties of 3D printed TPU-based elastomers. Prog Addit Manuf. 2023;8:693–701.
- Alzyod H, Ficzere P. Material-dependent effect of common printing parameters on residual stress and warpage deformation in 3D printing: a comprehensive finite element analysis study. Polymers (Basel). 2023;15.
- Kowalska N, Szczygieł P, Skrzyniarz M, Błasiak S. Effect of shells number and machining on selected properties of 3D-printed PLA samples. Polimery. 2024;69:186–190.
- Rudnik M. Study of cellular structures built from self-similar models and repeatable structures manufactured by FDM/FFF technology. Polimery. 2024;173–178.
- Faidallah RF, Abd-El Nabi AM, Hanon MM, Szakál Z, Oldal I. Compressive and bending properties of 3D-printed wood/PLA composites with re-entrant honeycomb core. Results Eng. 2024;24.
- Estefanía D, Pérez C, Geovanny E, Novay Z, Patricio H, Mazón C, et al. Elasticity and plasticity of PLA, PETG, ABS polymers for printing automotive parts. Rev Multidiscip Investig Científica. 2024;8: 51–66.
- Grigoriev S, Nikitin N, Yanushevich O, Krikheli N, Khmyrov R, Strunevich D, et al. Experimental and statistical study of strength properties of FDM-printed specimens made from ABS, PLA and PETG plastics depending on the percentage and structure of filling. Research Square. 2024. Available from: https://www.researchsquare.com/article/rs-4627817/v1
- Yu J. The application and significance of 3D printing technology in biomedicine. Appl Comput Eng. 2024;58:215–221.
- Mathews Jacob J, Nachiappan B. An overview on 3D printing technology: technological, materials, and applications; 2023.
- Wang Z, Wang XY, Yu X. Application of 3D printing surgical training models in the preoperative assessment of robot-assisted partial nephrectomy. BMC Surg. 2024;24.
- Ali F, Kalva SN, Koc M. Advancements in 3D printing techniques for biomedical applications: a comprehensive review of materials consideration, post processing, applications, and challenges. 2024.
- Turek P. Automating the process of designing and manufacturing polymeric models of anatomical structures of mandible with Industry 4.0 convention. Polimery. 2019;64:522–529.
- Zakręcki A, Cieślik J, Bazan A, Turek P. Innovative approaches to 3D printing of PA12 forearm orthoses: a comprehensive analysis of mechanical properties and production efficiency. Materials. 2024;17.
- Cooper3D. Material technical datasheet PLACTIVE; 2025.
- Cooper3D. Material safety data sheet PLACTIVE; 2025.
- Karimi A, Rahmatabadi D, Baghani M. Various FDM mechanisms used in the fabrication of continuous-fiber reinforced composites: a review; 2024.
- Ma T, Zhang Y, Ruan K, Guo H, He M, Shi X, et al. Advances in 3D printing for polymer composites: a review; 2024.
- Bustos Seibert M, Mazzei Capote GA, Gruber M, Volk W, Osswald TA. Manufacturing of a PET filament from recycled material for material extrusion (MEX). Recycling. 2022;7.
- Mittal YG, Patil Y, Kamble PP, Gote GD, Mehta AK, Karunakaran KP. Warpage control in thermoplastic ABS parts produced through material extrusion (MEX)-based fused deposition modeling (FDM). Rapid Prototyp J. 2024;30:1822–1835.
- Shina S. Industrial design of experiments. Cham: Springer International Publishing; 2022.