Increasing the strength of thin-walled products obtained by FDM using the thin surface films

• Autorzy: Zagirnyak Mykhaylo , Salenko Oleksandr , Alnusirat Walid , Golovko Leonid , Orel Vadym , Kulynych Viktoriia

Identyfikatory

DOI

10.15199/48.2024.03.52

Warianty tytułu

PL

Zwiększanie wytrzymałości cienkościennych produktów uzyskanych metodą FDM przy użyciu cienkich folii powierzchniowych

• Języki publikacji: EN

Abstrakty

EN

A review and analysis of methods for the obtaining the products with surface films. The possibility of increasing the strength of shell products under the action of thermobaric load and establishing the functional conditioning of the strength limit by the conditions of formation of protective films is presented.

PL

Przegląd i analiza metod otrzymywania wyrobów z foliami powierzchniowymi. Przedstawiono możliwość zwiększenia wytrzymałości wyrobów powłokowych pod wpływem obciążenia termobarycznego i ustalenia funkcjonalnego uwarunkowania granicy wytrzymałości warunkami tworzenia się filmów ochronnych.

Słowa kluczowe

EN

FDM; surface film; strength; surface layer

PL

FDM; folia powierzchniowa; wytrzymałość; warstwa powierzchniowa

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2024
• Tom: R. 100, nr 3
• Strony: 289--292
• Opis fizyczny: Bibliogr.19 poz., rys., tab.

Twórcy

autor

Zagirnyak Mykhaylo

• Kremenchuk Mykhailo Ostrohradskyi National University, Professor, 20, Pershotravneva street, Kremenchuk, 39600, Ukraine

• https://orcid.org/0000-0003-4700-0967

autor

Salenko Oleksandr

• Sikorskyi NTUU KPI, Kyiv, Ukraine

• https://orcid.org/0000-0002-5685-6225

autor

Alnusirat Walid

• Sikorskyi NTUU KPI, Kyiv, Ukraine

• https://orcid.org/0000-0002-9604-3165

autor

Golovko Leonid

• Sikorskyi NTUU KPI, Kyiv, Ukraine

• https://orcid.org/0000-0001-7803-0312

autor

Orel Vadym

• Kremenchuk flight college Kharkiv National University of Internal Affairs Kremenchuk

• https://orcid.org/0000-0002-8775-3253

autor

Kulynych Viktoriia

• Kremenchuk Mykhailo Ostrohradskyi National University

• https://orcid.org/0000-0003-1702-2989

Bibliografia

• [1] E. Canessa, C. Fonda, M. Zennaro, Low-cost 3D Printing for Science, Education & Sustainable Development, 1st ed., ICTP-The Abdus Salam International Centre for Theoretical Physics, Trieste, Italy, 2013.
• [2] J. T. Quigley, Chinese Scientists Are 3D-Printing Ears and Livers – With Living Tissue, 2013. URL: https://thediplomat.com/2013/08/chinese-scientists-are-3d-printing-ears-and-livers-with-living-tissue/
• [3] ABS and PLA plastics. What is the difference between ABS plastic and PLA plastic. URL: http://picaso-3d.com/ru/abs-i-plaplastiki/
• [4] V. V. Pushkarev, А. V. Drobotov, Arrangement of devices for volume printing by extruded molten parts of complex shape, in: Proceedings of Volgograd State Technical University, 20 (2013), 121-123.
• [5] Park J, Tari MJ, Hahn HT. Characterization of the laminated object manufacturing (LOM) process. Rapid Prototyp J 2000;6(1):36–50.
• [6] Liao Y, Li H, Chiu Y. Study of laminated object manufacturing with separately applied heating and pressing. Int J Adv Manuf Technol 2006;27(7–8):703–7.
• [7] Liao Y, Chiu Y. Adaptive crosshatch approach for the laminated object manufacturing (LOM) process. Int J Prod Res 2001;39(15):3479–90.
• [8] L. Momoda. “The future of engineering materials: Multifunction for performance-tailored structures”. Bridge, vol. 34 (2004): 18–21.
• [9] L. Puig, A. Barton, and N. Rando. A review on large deployable structures for astrophysics missions. Acta Astronautica, vol. 67, no. 1-2, (2010): 12–26.
• [10] Doely, P.K. 3D Printing: A New Dimension in Construction. http://fwhtlaw.com/briefing-papers/3d-printing- new-dimension-construction. Accessed 9 February 2022.
• [11] Xu Sheng-jin, Kong Xian-ren, Wang Ben-li, MA Xing-rui, Zhang Xiao- chao. Method of equivalent analysis for statistics and dynamics behavior of orthotropic honeycomb sandwich plates, Acta Materiae Compositae Sinica. 17(3) (2000): 92-95.
• [12] Salenko, A., Melnychuk, P., Lashko, E., Derevianko, I., Samusenko, O.: Ensuring The Functional Properties of Responsible Structural Plastic Elements by Means of 3-D Printing. Eastern-European Journal of Enterprise Technologiesthis link is disabled. 5(1-107), 18-28, (2020).
• [13] Meifeng He, Wenbin Hu, A study on composite honeycomb sandwich panel structure, Materials and Design, 29 (2008) 709–713.
• [14] Comparizen mechanical propertiez of ABS and PLA filaments https://www.liqcreate.com/supportarticles/properties-fdm-slsresin/. Accessed 9 February 2022.
• [15] Özalp, F., Yilmaz, H.D.: Fresh and Hardened Properties of 3D High-Strength Printing Concrete and Its Recent Applications. Iran. J. Sci. Technol.-Trans. Civ. Eng. 44, 319–330, (2020).
• [16] Guoxin Fang, Sikai Zhong, Zichun Zhong, Tianyu Zhang, Xiangjia Chen, Charlie C L Wang: Reinforced FDM: Multi-Axis Filament Alignment with Controlled Anisotropic Strength. ACM Transactions on Graphics. 39, 6 (2020). doi: 10.1145/3414685.3417834.
• [17] Mohammed A. Isa, Ismail Lazoglu: Five-axis additive manufacturing of freeform models through buildup of transition layers. Journal of Manufacturing Systems 50, December 2018, 69–80, (2019). doi:10.1016/j.jmsy.2018.12. 002.
• [18] Gardner, J.A., Kaill, N., Campbell, R.I., Bingham, G.A., Engstrøm, D.S., Balc, N.O.: Aligning Material Extrusion Direction with Mechanical Stress via 5-Axis Tool Paths. In 29th Annual International Solid Freeform Fabrication Symposium. An Additive Manufacturing Conference, SFF. 2005–2019, (2018).
• [19] W. Alnusirat, A. Salenko, S. Shlyk, I. Gusarova, P. Loboda, I. Trosnikova, and I. Bogomol, Ensuring Strength of the Seam of Thermal Protective Structures from Thin-Sheet Nickel Alloys Obtained by Laser Vacuum Welding, Metallofiz. Noveishie Tekhnol., 44, No. 3 (2022): 393–418 doi: 10.15407/mfint.44.03.0393

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki i promocja sportu (2025).