Braam Delfian Prihadianto, Suryo Darmo

Submitted : 2020-08-03, Published : 2021-01-02.


Replica is an imitation of an object in a size that is greatly reduced by the level of precision and detail that resembles the original object. One of the replica commonly made is a replica of transportation, especially buses, and one of the producers is Karang Taruna Dusun Bendungan, which is located in Karangmojo Subdistrict, Gunung Kidul District. Making replica so far has been done manually by relying on the cutter as a forming tool. In making manuals there are several obstacles faced, namely difficulties when making molds which include cowl molds, seat molds, AC cover molds and other parts. In addition, making miniature manually has disadvantages such as not being precise in shape and size with the original object and if there is a small change in a particular part, then it must be made from scratch again. Based on these constraints the team provided a solution by making a 3D printer machine that could be used to support bus replica production. Making a 3D printer machine with dimensions of 48 x 46 x 44 cm got a positive response.  In addition, the conducted training were enthusistically participated by the members. Utilization of 3D printer machines greatly helps the production process and increases the efficiency of time by 76% at the stage of making master prints.


Gunung Kidul; replica; 3D printing


M. Susanto, Diksi Rupa, Yogyakarta: Kanisius, 2002.

Poerwadarminta, Kamus Besar Bahasa Indonesia, Jakarta: Balai Pustaka, 1993.

D. Yagnik, "Fused Deposition Modeling – A Rapid Prototyping Technique for Product Cycle Time," IOSR Journal of Mechanical and Civil, pp. 62-68, 2014.

M.D. Muliyawan, G.E. Pramono, and Sumadi, “Rancang Bangun Konstruksi Rangka Mesin 3D Printer Tipe Cartesian Berbasis Fused Deposition Modeling (FDM),” Jurnal Teknik Mesin, vol. 06, no. 4, p. 252-257, 2017.

Pemerintah Desa Bendungan, Kecamatan Karangmojo, Kabupaten Gunung Kidul 2018, http://bendungan-karangmojo.desa.id.

M. Dahlan, B. Gunawan, and F.S. Hilyana, Rancang Bangun Printer 3D Menggunakan Kontroller Arduino Mega 2560, Prosiding SNATIF Ke-4, ISBN: 978-602-1180-50-1, 2017.

A.D. Ananda and D. Susilowati, Pengembangan Usaha Mikro Kecil dan Menengah (UMKM) Berbasis Industri Kreatif di Kota Malang, Jurnal Ilmu Ekonomi, vol X, jilid X, p. 120-142, 2017.

K.S. Putra and U.R. Sari, Pemanfaatan Teknologi 3D Printing Dalam Proses Desain Produk Gaya Hidup, Seminar Nasional Sistem Informasi dan Teknologi Informasi 2018, 2018.

B.D. Prihadianto and A.R. Koswara, “Analisis Kekuatan Miniatur Sasis Bus Hasil Teknologi Fused Deposition Modelling Dengan Metode Elemen Hingga,” MANUTECH Jurnal Teknologi Manufaktur, vol.12, no. 1, p. 36-43, 2020.

S. Farah, D.G. Anderson, and R. Langer, “Physical and mechanical properties of PLA, and their functions in widespread applications — A comprehensive review,” Advanced Drug Delivery Reviews, vol.107, p. 367, 2016.

A. Setiawan, “Pengaruh Parameter Proses Ektrusi 3D Printer Terhadap Sifat Mekanis Cetak Komponen Berbahan Filament PLA (Polylactide Acid),” Jurnal teknika STTKD, vol. 4, no. 2, p. 20-27, 2017.

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