Kurniawan, Arif (2008) Komposit Fiber Glass Serat Woven Roving Sebagai Bahan Alternatif Baling Baling Kincir Angin. Diploma thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Energi angin sebagai salah satu jenis energi terbarukan bisa disajikan sebagai pilihan yang tepat untuk mengatasi krisis energi. Angin dikonversikan ke listrik dengan menggunakan baling-baling kincir angin. Baling-baling kincir angin yang baik harus memiliki karakteristik yang kuat, keras, ringan, dan tahan terhadap sinar matahari. Tetapi, pada umumnya sifat seperti ini hanya diperoleh dari material yang harganya mahal. Karena itu dalam tugas akhir ini akan dibuat bahan komposit fiber glass woven roving dengan paduan resin polyester. Diharapkan, paduan kedua jenis ini akan menghasilkan bahan alternatif baru sebagai bahan baling-baling kincir angin Dalam penlitian ini yang pertama dilakukan adalah penentuan material Fiber Reinforcement Plastics (FRP) dan perbandingan fraksi serat dan resin. Kemudian dilanjutkan dengan pembuatan komposit dengan ketebalan tertentu dengan proses Hand lay up. Untuk kekuatan komposit ini akan dilakukan pengujian tarik. Dari hasil penelitiani bahan komposit yang telah dibuat, nilai karakteristik terbaik dimiliki sampel dengan .fraksi volume 70% : 30% dengan 5 lamina dan orientasi sudut /0°/45°/0°/45°/0° yang memiliki kekuatan tarik 13 6.1182 N/mm2 , modulus elastisitas 8131.461 Nlmm2 , kekuatan luluh 122.3837Nimm2 , ketangguhan 2.282596 N/ mm2 dan keuletan 0.01679 %. Maka komposit fiber glass woven roving dengan resin polyester dapat dipakai sebagai bahan alternatif baling-baling kincir angin dengan dimensi maksimal masing-masing sebesar panjang 5 m, Iebar 35 m, dan tebal 5 em untuk kecepatan 8, 72 mls yang sesuai dengan standart IEC (The International Electrotechnical Commission) 61400-1
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Wind energy as a type of renewable energy can be presented as the right choice to overcome the energy crisis. Wind is converted into electricity using windmill propellers. Good windmill propellers must have the characteristics of being strong, hard, lightweight, and resistant to sunlight. However, in general, these properties are only obtained from expensive materials. Therefore, in this final project, a composite material of woven glass fiber roving with a polyester resin alloy will be created. It is hoped that the combination of these two types will produce a new alternative material as a windmill propeller material. In this research, the first step is to determine the Fiber Reinforcement Plastics (FRP) material and the ratio of fiber and resin fractions. Then, the composite with a certain thickness is made using the Hand lay-up process. For the strength of this composite, a tensile test will be carried out. From the results of the research on composite materials that have been made, the best characteristic value is owned by a sample with a volume fraction of 70%: 30% with 5 laminae and an angle orientation of /0°/45°/0°/45°/0° which has a tensile strength of 136.1182 N/mm2, an elastic modulus of 8131.461 Nlmm2, a yield strength of 122.3837Nimm2, a toughness of 2.282596 N/mm2 and a ductility of 0.01679%. Therefore, a composite of fiberglass woven roving with polyester resin can be used as an alternative material for wind turbine propellers with maximum dimensions of 5 m in length, 35 m in width, and 5 cm in thickness for a speed of 8.72 ms, which complies with the IEC (The International Electrotechnical Commission) 61400-1 standard
| Item Type: | Thesis (Diploma) |
|---|---|
| Additional Information: | RSM 620.118 Kur k-1 2008 (weeding) |
| Uncontrolled Keywords: | Baling-baling kincir angin, komposit, woven roving, uji tarik; wind turbine, composite, woven roving, tensile test |
| Subjects: | Q Science > QC Physics > QC173.4.C63 Composite materials |
| Divisions: | Faculty of Industrial Technology > Mechanical Engineering > 21401-(D3) Diploma 3 |
| Depositing User: | EKO BUDI RAHARJO |
| Date Deposited: | 13 Oct 2025 03:44 |
| Last Modified: | 13 Oct 2025 03:44 |
| URI: | http://repository.its.ac.id/id/eprint/128569 |
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