WILLIAM MUHAMAD ROSADI, . (2021) OPTIMASI DESAIN POROS MESIN PENCACAH LIMBAH TOPLES PLASTIK LAB PTLR BATAN KAPASITAS 21 KG PER JAM. Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.
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2. BAB I.pdf Download (803kB) |
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Abstract
Limbah toples plastik pada lab PTLR BATAN ialah salah satu permasalahan yang sangat dihadapi Permasalahan ini tentu perlu dicarikan solusinya. Salah satu cara dengan membuat mesin pencacah botol plastik dan sejenisnya. Mesin pencacah dengan komponen penggerak poros ,pisau cacah,rangka. Penelitian ini bertujuan untuk mendesain poros mesin pencacah limbah toples plastik, dimulai dengan preliminary desain, uji cuba gaya aktual mesin pencacah dengan dimensi poros yang sudah ditetpakan dengan metode eksperimen. Desain 2D dengan Software Autodesk AutoCAD lalu dilanjutkan mendesain 3D dengan Software Autodesk Inventor. Dari data yang telah dianalisis kemudian divalidasi menggunakan Software Autodesk Inventor. Kemudian poros dibuat dan dilakukan uji coba. Dari simulasi Inventor mendapatkan hasil analisis nilai Von Mises =100,8Mpa Max, dengan perpindahan (Displacement) sebesar 0,09675 mm, dan nilai Safety Factor =3,4. Dari hasil analisis poros sangat optimal karna mengacu pada hasil perhitungan manual dan memperhatikan kondisi lingkungan dan mengambil nilai Safety Faktor >3. Plastic jars waste in the PTLR BATAN lab is a very serious problem to overcome with. One way is to make a plastic jars chopping machine and the like, a chopping machine with a shaft driving component, a chopping knife, a frame. This study aims to design the shaft of a plastic bottle waste chopping machine, starting with the preliminary design, trying to test the actual force of the chopper with the shaft dimensions determined by the experimental method. 2D design with Autodesk AutoCAD software and then continue designing 3D using Autodesk Inventor software. From the data that has been analyzed then it is validated using Autodesk Inventor Software. Then the shaft is made and tested. From the Inventor simulation, the results of the analysis of the Von Mises value = 104.7Mpa, with a displacement (Displacement) of 0.1222 mm, and the value of the Safety Factor = 3.28 ul. From the results of the analysis, the shaft is very optimal because refers to manual calculations and it considers environmental conditions and takes the value of the Safety Factor> 3.
| Item Type: | Thesis (Sarjana) |
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| Additional Information: | 1). Drs. Syamsuir, M.T. ; 2). Drs. H. Sirojuddin, M.T. |
| Subjects: | Teknologi dan Ilmu Terapan > Teknik Mesin, Mekanika Teknik |
| Divisions: | FT > S1 Pendidikan Teknik Mesin |
| Depositing User: | Users 10137 not found. |
| Date Deposited: | 17 Mar 2021 07:30 |
| Last Modified: | 17 Mar 2021 07:30 |
| URI: | http://repository.unj.ac.id/id/eprint/15052 |
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