PERANCANGAN DAN PENGEMBANGAN ALAT UJI TARIK MINI BERBASIS ARDUINO UNTUK SPESIMEN NON-FERRO
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Published:
Aug 31, 2020
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Abstract
Tensile test mechine is one of the most important research and educational means in supporting and supporting the learning process of teaching in the laboratory used to know the mechanical properties of materials. Currently commercial tensile testing tools are very accurately used in measuring mechanical properties, but cost and size make it impractical for classroom direct learning. This research and development experimented to design and create a small capacity tensile testing tool capable of producing tools that are more efficient, economical, and have high anemicity by utilizing the available hardware and software while keeping an eye on and maintaining the quality of the production results. This Tensile test tool uses nema 17 stepper motor as drive motor, to transmit power using 2 ballscrew, belt, and pulley. Load cell and digimatic sensors are used for reading the magnitude and extension of specimens controlled by the Arduino microcontroller. Keywords: Tensile Test, Ioad Cell, Voltage, StrainBlank
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How to Cite
Comaro, J., Malik, I., & ., K. (2020). PERANCANGAN DAN PENGEMBANGAN ALAT UJI TARIK MINI BERBASIS ARDUINO UNTUK SPESIMEN NON-FERRO. MACHINERY: Jurnal Teknologi Terapan, 1(1), 55–61. https://doi.org/10.5281/zenodo.4540926
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References
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Partheepan, G., Sehgal, D.K. and Pandey, R.K. 2005, Design and usage of a simple miniature specimen test setup for the evaluation of mechanical properties. Inter. J. Microstructure and Materials Properties, 1, 1, 38-50
Pearce, J. M., 2012. Building Research Equipment with Free, Open-Source Hardware. Science, 337 (6100), 1303-1304.
Sukarno, Ragil., dkk. 2014. Pelatihan Dasar-Dasar Cad/Cam/Cae Dan Software Autocad Untuk Guru-Guru Smk Bidang Keahlian Teknik Mesin Di Wilayah Kabupaten Bekasi. Fakultas Teknik: Universitas Negeri Jakarta.
Baharrudin dan isyadiyani, 2018, Implementation of Design and Development Tensile Testing Machine for Application in Soft Material Testing.
Bahrin. 2017. Sistem Kontrol Penerangan Menggunakan Arduino Uno pada Universitas Ichsan Gorontalo. Universitas Ichsan Gorontalo.
Chao, y.c. and liu, d.s., 2003, Gold Wire And Solder Joint Microforce Testing Using Microforce Tester. Experimental techniques, 25, 5, 37-40
Grinias, J. P. Whitfield, J. T. Guetschow, E. D. Kennedy, R. T., 2016. An Inexpensive, Open-Source USB Arduino Data Acquisition Device for Chemical Instrumentation. J. Chem. Educ. 93 (7), 1316-1319.
Hascelik, Barıs. and Eren, Recep, 2016. Development of a Test Device for Measuring Tensile Properties of Fabrics.
Hou, P.H. and Chen, T.Y. 2005, An automatic tensile test measurement system for miniature specimens. Experimental Mechanics, 29, 4, 32-36
Ignou, 2018. Design of Screw, Fasteners, and Power Screws.
Julien H. Arrizabalaga, Aaron D. Simmons, dan Matthias U. Nollert. 2017. Fabrication of an Economical Arduino-Based Uniaxial Tensile Tester, J. Chem. Educ., 94, 530-533
LaVan, D.A. 1999, Microtensile properties of weld metal. Experimental Mechanics, 23, 3, 31-34
Mabbott, G.A. 2014. Teaching Electronics and Laboratory Automation Using Microcontroller Boards. J. Chem. Educ.91 (9),1458-1463.
Partheepan, G., Sehgal, D.K. and Pandey, R.K. 2005, Design and usage of a simple miniature specimen test setup for the evaluation of mechanical properties. Inter. J. Microstructure and Materials Properties, 1, 1, 38-50
Pearce, J. M., 2012. Building Research Equipment with Free, Open-Source Hardware. Science, 337 (6100), 1303-1304.
Sukarno, Ragil., dkk. 2014. Pelatihan Dasar-Dasar Cad/Cam/Cae Dan Software Autocad Untuk Guru-Guru Smk Bidang Keahlian Teknik Mesin Di Wilayah Kabupaten Bekasi. Fakultas Teknik: Universitas Negeri Jakarta.