Rancang Bangun dan Simulasi 3D Printer Model Cartesian Berbasis Fused Deposition Modelling
DOI:
https://doi.org/10.30588/jeemm.v5i2.895Keywords:
3D printer, Fused Deposition Modelling, PLA, Finite Element MethodAbstract
The process of designing and manufacturing a Cartesian 3D printer model based on Fused Deposition Modelling (FDM) is carried out to produce a 3D printer machine that can perform the printing process accurately and quickly. In this research, the process is divided into three stages, namely designing using Computer-Aided Design (CAD) software, printing and assembling components of a 3D printer machine, and analysing the mechanical structure of a 3D printer machine. This 3D printer is designed to carry out the printing process with an area of 180x180x150 mm. Some components of 3D printing machines use Polylactic Acid (PLA). The simulation results based on the Finite Element Method show that the 3D printer engine is feasible to produce printing with a mass of 40% of the maximum possible load.
References
Amri, A.A.N. dan Sumbodo, W. 2018. Perancangan 3D Printer Tipe Core XY Berbasis Fused Deposition Modeling (FDM) Menggunakan Software Autodesk Inventor 2015. Jurnal Dinamika Vokasional Teknik Mesin. 3(2), 110-115.
Crump SS, inventor; Stratasys Inc, assignee. Apparatus and method for creating three-dimensional objects. United States patent US 5121329. 1992 Jun 09.
Dahlan, M., Gunawan, B., dan Hilyana, F.S. 2017. Rancang Bangun Printer 3D Menggunakan Kontroler Arduino Mega 2560, Proceeding, Kudus: Prosiding Seminar Nasional Teknologi dan Informatika (SNATIF) ke-4, ISBN: 978-602-1180-50-1, pp.105-110.
Dedi. 2020, April 11. PKM Teknik Untan Pontianak buat APD untuk COVID-19. https://kalbar.antaranews.com/berita/411938/pkm-teknik-untan-pontianak-buat-apd-untuk-covid-19. Diakses pada 18 Agustus 2021.
Li, B., Liu, J., Gu, H., Jiang, J., Zhang, J., & Yang, J. 2019. Structural Design of FDM 3D Printer for Low-melting Alloy. In IOP Conference Series: Materials Science and Engineering (Vol. 592, No. 1, p. 012141). IOP Publishing.
Masood, S.H., 2014. 10.04 - Advances in Fused Deposition Modeling. Comprehensive Materials Processing. 10, 69-91.
Moridi, A. (2016). Powder Consolidation Using Cold Spray: Process Modeling and Emerging Applications. Springer.
Muliyawan, M.D., Pramono, G.E., dan Sumadi. 2017. Rancang Bangun Konstruksi Rangka Mesin 3D Printer Tipe Cartesian Berbasis Fused Deposition Modeling (FDM). Jurnal Teknik Mesin (JTM). 6(4), 252-257.
Rahim, T. N. A. T., Abdullah, A. M., & Md Akil, H. 2019. Recent Developments in Fused Deposition Modeling-Based 3D Printing of Polymers and Their Composites. Polymer Reviews, 1–36.
Schmitt, B.M., Zirbes, C.F., Bonin, C., Lohmann, D., Lencina, D.C., dan Netto, A.D.C.S. 2017. A Comparative Study of Cartesian and Delta 3D Printers on Producing PLA Parts. Materials Research. 20(2), 883-886.
Setiawan, A. 2017. Pengaruh Parameter Proses Ekstrusi 3D Printer Terhadap Sifat Mekanis Cetak Komponen Berbahan Filament Pla (Poly Lactide Acid). Jurnal Teknika STTKD. 4(2), 20-27.
Setyoadi, Y., Carsoni, Amiruddin, M., dan Harjanto, I. 2015. Perancangan dan Manufaktur Printer 3 Dimensi Tipe Fused Deposition Modeling (FDM), Proceeding, Semarang: Seminar Nasional Hasil Penelitian (SNHP-V), ISBN:978‐602‐0960‐29‐6, pp.547-551.
Sumantri, D. 2012. Peningkatan Kinerja Mesin Rapid Prototyping Berbasis Fused Deposition Modelling. Skripsi. Universitas Indonesia, Depok.
Szulżyk-Cieplak, J., Duda, A., dan Sidor, B. 2014. 3D Printers – New Possibilities In Education. Advances In Science and Technology Research Journal. 8(24), 96-101.
Taufik, I., 2018, Oktober 9. Model-model 3D Printer. https://3dprinting.ft.ugm.ac.id/2018/10/09/model-model-3d-printer. Diakses pada 19 Agustus 2021.
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