PERANCANGAN SILINDER HIDROLIK PADA MESIN MOLDING KARET DENGAN KAPASITAS 25 TON

Muhammad Al Haramain, Riki Effendi, Harmanung Adi Susilo

Abstract


The hydraulic system has been widely used for various tools. The system developed from Pascal's law becomes one of the vital knowledge that its use in the industrial world. Ranging from small businesses to some kind of a car wash with large industries such as molding machine. The components are arranged in the hydraulic cylinder includes a tube, piston, rod axles, gland, and seal. Each component has the function and role of each and every component seal types are also different types, for a material component of the hydraulic cylinder must not rustproof for hydraulic oil in addition to the driving also serves to lubricate the hydraulic cylinder components. The greater the pressure in the hydraulic tube is getting thicker the hydraulic tube wall, so that the seal does not leak type of profile and material must be in accordance with the state of the hydraulic cylinder, for the connection technique in the hydraulic cylinder components should also be considered such as when welding, welding wire material must be in accordance with the material to be welded. For the methods used in the design of the hydraulic cylinder on the rubber molding machine is an analytical method burdened straight column in the center of axle rodmethods MAWP (Maximum Allowable Working Pressure) to force the tube The results of this design is for a straight column burden in the short-sized center, and to the strength of the tube can withstand the pressure 607.74 bar as well as the costs required to make the hydraulic cylinders in rubber molding machine is very affordable.


Keywords


hydraulic cylinders; hydraulic seal; molding machine; MAWP

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References


Wikipedia, 2015, Pengertian sistem hidrolik, https:// id.wikipedia.org/ wiki/ Sistem_hidraulik

Onny, 2011, Aplikasi sistem hidrolik, http:// artikel-teknologi.com/ aplikasi-sistem-hidrolik

Vickers Industrial Hydraulics Manual, 1991, Konversi satuan

Arifin, Zulkarnain, 2003, Dasar-Dasar Hidrolik, Akademi Teknik Soroako

PT Total Prime, 2014, Product, http://www.total- prime.com/products.html

Irawan, Agustinus Purna, 2009, Diklat Elemen Mesin, Universitas Tarumanegara, Jakarta.

Onny, 2011, Komponen silinder hidrolik, http:// artikel-teknologi.com/ komponen-silinder- hidrolik/

Sularso, 2008, Dasar Perencanaan dan Pemeliharaan Elemen Mesin, PT Pradnya Paramita, Jakarta.

Mott, Robert L., 2009, Elemen-Elemen Mesin Dalam Perancangan Mekanis, Penerbit ANDI, Yogyakarta.

SAE Handbook, 2003, Society of Automotive Engineers

PT Tijara Pratama, 2004, Pelatihan dasar analisis tegangan pipa, Jakarta.

Wikipedia, 2016, Von Mises yield criterion, https:// en.m.wikipedia.org/wiki/Von_Mises_yield_criteri on.

Tjandra, 2007, Perancangan mesin press sampah kertas, Petra Christian University, Surabaya.

Suryatama, 2007, Perancangan Mesin Press Hidrolik Genteng Beton, Universitas Muhammadiyaah Malang, Malang.

Roby, Rio, 2012, Perancangan mesin press tebu, Universitas Negri Yogyakarta, Yogyakarta.


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