Perancangan Alat Press Hidrolik Kapasitas 20 Ton
DOI:
https://doi.org/10.31004/jutin.v7i1.25499Keywords:
Press tool, Hidroulic power, Precision, SteelAbstract
A press tool is a tool to help shape, bend, cut products from sheet metal (plate) base material which is operated using a press tool. To increase effectiveness and productivity, currently many hydraulic systems are combined with other systems such as electrical/electronic, pneumatic and mechanical systems so that more optimal hydraulic system work can be obtained. This press applies pressing or loading movements using hydraulic power. In order for the pressing process to be even or precise, one cylinder is needed which moves the top plate (Punch). The working load on the single acting cylinder has a maximum capacity of 20 tons. The design of this press tool is designed by following the type and shape of the selected material sample. The design of this press tool aims to make the user's work easier to get more precise press results. The material used is profile steel. Simulation results on the press frame: frame length 400 mm, frame width 600 mm, frame height 850 mm, frame strength 16407 N/m2References
Ak Steel Corporation. (2007). 316/316l Stainless Stell Catalogue. West Chester, America.
ASM International, 1993, ASM Metal,Handbook Vol 14 – Forming and Forging, 9th edition, ASM International Inc.
Ahmad faika siregar, 2018. pembuatan die ekstrusi dingin pada pembentukan bendakerja berbentuk silinder. Medan : Program Studi Teknik Mesin UMSU
Dhimas Ady Permana, 2010. Rancang Bangun Mesin Pres Semi Otomatis.
Universitas Sebelas Maret Surakarta
H. Darmawa Harsukusoemo. 2000. Pengantar Perancangan Teknik /Perancangan Produk. Bandung : Direktorat Jendral Pendidikan Tinggi Departemen Pendidikan Nasional
Ilyas Rori, 2018. Perancangan Alat Elevator Pada Pabrik Kelapa Sawit,Laporan tugas akhir, Medan : Program Studi Teknik Mesin UMSU.
Parr, Andrew, 2003, Hidrolika dan Pneumatika Bagi Teknisi dan Insinyur, Edisi ke-2, alih bahasa : Gunawan Prasetya, Erlangga, Jakarta.
Remora Savalas, 2016, Pengertian dan Jenis Mesin Press, Indonesia.
Sato, G Takeshi, N Sugiarto H, 1996.“Menggambar Mesin Menurut Standar ISO”.
Cetakan ketujuh, PT. Pradnya Paramitha, Jakarta.
Smith, William F. 1990. Principles off Material Science and Engineering. Second Edition. Mc. Graw Hill Publishing Company.
Shigley, J.E., dan Mitchell L. D. 1983. Mechanical Engineering Design, Fourth edition. New Y ork: Mc Grow-Hill, Inc.
Sulistyo Aris. 2014. Makalah Bending. Universitas Negeri Yogyakarta Sularso. (2008). Elemen Mesin. Jakarta: PT. Pradnya Paramita.
Tyas Ari Wibowo , Wahyu Purwo Raharjo, Bambang Kusharjanta. 2014. Perancangan Dan Analisis Kekuatan Konstruksi Mesin Tekuk Plat Hidrolik . Universitas Sebelas Maret. Surakarta.
Sumber: https://core.ac.uk/pdf/12348972.pdf
Sumber: google.com/alat press manual(https://id.wikipedia.org/wiki/pengukuran_tekanan
https://sciencing-com.translate.goog/calculate-shear-stress-bolts-5925603)
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