Examination of possibilities of the strength modification in the case of FDM/FFF manufacturing technology

Szerzők

  • Péter Ficzere Budapest University of Technology and Economics, Department of Vehicle Elements and Vehicle-Structure Analysis https://orcid.org/0000-0003-3207-5501
  • Norbert László Lukács Budapest University of Technology and Economics, Department of Vehicle Elements and Vehicle-Structure Analysis

DOI:

https://doi.org/10.32972/dms.2020.010

Kulcsszavak:

Hybrid infill, FDM, Additive Manufacturing, Generative Design

Absztrakt

In many situations the result of the topology optimization or generative design can be manufactured only by additive manufacturing technologies. It is also important to know how the optimised shape behaves from the mechanical stiffness, the manufacturing technology and beneficial point of view. These two different goals can be combined and just the infill properties can be changed and optimised within the main body of 3D printed part.

Hivatkozások

Ficzere P., Horváth Á. M., Sipos T. (2020). Elalvásos balesetek csökkentési lehetősége additív gyártási eljátrással fejlesztett kapszulák segítségével. Közlekedéstudományi Szemle, 70, 1, pp. 77–85., http://doi.org/10.24228/KTSZ.2020.1.3.

Ficzere, P. (2018). Design Questions of the Individual Medical Implants. In: Háber, István Ervin, Bogdán, Csaba, Szőke, András (eds.). Proceedings of the 4th International Interdisciplinary 3D Conference, Engineering Section, Pécs, Hungary: October 5–6, 2018, University of Pécs, pp. 57–67.

Ficzere P., Borbás L., Falk Gy. (2018). Csont anyagtulajdonságainak megfelelő anyagmodellek előállítása additív gyártástechnológiákkal. Biomechanica Hungarica, 11, 2, pp. 77–83., http://doi.org/10.17489/2018/2/1.

Ficzere, P., Borbas, L., Falk, Gy., Szebenyi, G. (2018). Experimental determination of material model of machine parts produced by Selective laser sintering (SLS) technology. Materials Today: Proceedings, 5, 13, pp. 26489–26494., https://doi.org/10.1016/j.matpr.2018.08.104.

Ficzere, P. (2020). Experimental Dynamical Analysis and Numerical Simulation of the Material Properties of Parts Made by Fused Deposition Modelling Technologies. Periodica Polytechnica Transportation Engineering, 48 (3), pp. 221–225., https://doi.org/10.3311/PPtr.13947.

Ficzere, P., Lukács, N. L. (2020). Influence of 3D printing parameters. IOP Conference series: Materials Science and Engineering, 903 p. 012008, 7 p., http://doi.org/10.1088/1757-899X/903/1/012008.

Győri, M., Ficzere, P. (2017). Use of Sections in the Engineering Practice. Periodica Polytechnica Transportation Engineering, 45 (1), pp. 21–24., http://doi.org/10.3311/PPtr.9144.

Ficzere, P., Borbás, L., Török, Á. (2013). Economical Investigation of Rapid Prototyping. International Journal for Traffic and Transport Engineering, 3, 3, pp. 344–350., http://doi.org/10.7708/ijtte.2013.3(3).09.

Ficzere P. (2019). Alkatrészek munkatérben történő elhelyezésének a gyártási költségekre gyakorolt hatása additív gyártástechnológiák esetén. GÉP, 70, 3, pp. 26–29., 4 p.

Tóth Cs., Kovács N. K. (2020). Additív gyártástechnológiával készült, politejsav mátrixú kompozitok vizsgálata. Polimerek, 6/5., pp. 926–930.

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Megjelent

2020-11-30

Hogyan kell idézni

Ficzere, P., & Lukács, N. L. (2020). Examination of possibilities of the strength modification in the case of FDM/FFF manufacturing technology. Design of Machines and Structures, 10(2), 27–34. https://doi.org/10.32972/dms.2020.010