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Ihsan, Saepul
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Engineering Mechanical Engineering

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Rancang Bangun 3D Printer FDM Model Cartesian Berbasis Arduino Mardiyana, Dani; Sulaiman, Zaid; Ihsan, Saepul; Ridha, Fabrobi; Rahman, Taufik
JMPM (Jurnal Material dan Proses Manufaktur) Vol. 7 No. 1 (2023): Juni
Publisher : Universitas Muhammadiyah Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.18196/jmpm.v7i1.16866

Abstract

Pembuatan prototype secara manual menelan banyak waktu, bahan baku, dan tidak akurat. Solusi pembuatan prototype agar cepat dan detail adalah 3D printer. Penelitian tentang 3D printer oleh peneliti sebelumnya masih terdapat kekurangan mengenai akurasi dimensi produk, serta terjadi stringing. Penelitian rancang bangun 3D printer FDM model Cartesian berbasis arduino ini dilaksanakan untuk menghasilkan rangka 3D printer yang kokoh, akurasi yang baik, dan mengatasi stringing. Metoda yang digunakan adalah rancang bangun, dimana mesin 3D printer dirancang dan dibuat, kemudian diuji performanya. Desain 3D printer memiliki dimensi 434 x 470 x 610 mm dengan area kerja 220 x 220 x 233 mm Rangka yang dibuat disimulasikan dengan FEA dengan hasil safety factor 15 ul. Kontrol 3D printer menggunakan Arduino Mega 2560  untuk pengoperasiannya. Hasil pengujian performa 3D printer telah berhasil menghilangkan stringing dengan akurasi produk sumbu X sebesar  99,48%, sumbu Y 99,24%, dan sumbu Z 98,46%.
Rancang Bangun 3D Printer FDM Model Cartesian Berbasis Arduino Mardiyana, Dani; Sulaiman, Zaid; Ihsan, Saepul; Ridha, Fabrobi; Rahman, Taufik
JMPM (Jurnal Material dan Proses Manufaktur) Vol. 7 No. 1 (2023): June
Publisher : Universitas Muhammadiyah Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.18196/jmpm.v7i1.16866

Abstract

Prototyping using the manual method consumes a lot of time, raw materials, and is often inaccurate. The 3D printer is a more quick and detailed method in the manufacture. Research on 3D printers by previous researchers still lacks product dimensional accuracy, and stringing still occurs. This research on the design of the Arduino-based Cartesian FDM 3D printer was carried out to produce a 3D printer frame that is sturdy, has good accuracy, and overcomes stringing. The methodology on the design is where the 3D printer machine is designed and built, then its performance is tested. The 3D printer design has dimensions of 434 x 470 x 610 mm with a work area of 220 x 220 x 233 mm. The frame is simulated with FEA with a safety factor of 15 ul. The 3D printer control uses Arduino Mega 2560 for operation. The results of the 3D printer performance test have succeeded in eliminating stringing with an X-axis product accuracy of 99.48%, Y-axis 99.24%, and Z-axis 98.46%.
Co-Authors Dani Mardiyana Ridha, Fabrobi Taufik Rahman Zaid Sulaiman