KARAKTERISTIK PENYERAPAN AIR DAN OLI BAHAN KOMPOSIT ALAMI UNTUK KAMPAS KOPLING

ANRICO DANIEL KALALO, . (2025) KARAKTERISTIK PENYERAPAN AIR DAN OLI BAHAN KOMPOSIT ALAMI UNTUK KAMPAS KOPLING. Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Penelitian ini berfokus pada pengembangan kampas kopling ramah lingkungan sebagai pengganti asbestos menggunakan komposit berbahan alami serat kelapa, serbuk kayu sengon, dan serbuk aluminium. Pengujian dilakukan untuk mengevaluasi karakteristik daya serap air, oli dan struktur mikro pada komposit dengan memvariasikan lima komposisi spesimen berdasarkan persentase kandungan bahan. Hasil penelitian menunjukkan bahwa spesimen dengan nilai penyerapan air tertinggi adalah spesimen 5 (Serbuk Kayu 20%, Serbuk Kelapa 20%, Aluminium 20%, Resin Epoxy 40%) dengan penyerapan sebesar 1,54 gram. Spesimen dengan nilai penyerapan oli tertinggi yaitu spesimen 2 (Serbuk Kayu 20%, Seruk Kelapa 20%, Serbuk Aluminium 5%, Resin Epoxy 55%) dengan penyerapan sebesar 0,28 gram. Spesimen nilai penyerapan air dan oli terendah ditemukan pada spesimen 3 (Serbuk Kayu 20%, Seruk Kelapa 20%, Serbuk Aluminium 10%, Resin Epoxy 50%) dengan penyerapan masing-masing sebesar 1,04 gram dan 0,08 gram. Selain itu, spesimen 5 juga memiliki perubahan massa jenis tertinggi pada pengujian daya serap air dan oli masing-masing sebesar 0,14 g/cm3dan 0,16 g/cm3, sedangkan perubahan massa jenis terkecil pada pengujian daya serap air dan oli masing-masing tercatat pada spesimen 1 (Serbuk Kayu 20%, Seruk Kelapa 20%, Serbuk Aluminium 0%, Resin Epoxy 60%) dengan perubahan massa jenis sebesar 0,05 g/cm3 dan 0,01 g/cm3. Spesimen dengan perubahan volume penyerapan air dan oli terbesar masing-masing terjadi pada spesimen 5 dan 2 (Serbuk Kayu 20%, Seruk Kelapa 20%, Serbuk Aluminium 5%, Resin Epoxy 55%). Spesimen dengan perubahan volume penyerapan air dan oli terkecil terjadi pada spesimen 1. Hasil analisis ini memberikan wawasan penting mengenai komposisi optimal untuk material kampas kopling berbasis komposit. ***** This study focuses on the development of an eco-friendly clutch lining as an asbestos substitute, utilizing a natural fiber composite made of coconut fiber, sengon wood powder, and aluminum powder. The tests were conducted to evaluate the water and oil absorption characteristics as well as the microstructure of the composite, with five specimen compositions varying based on material content percentages. The results indicate that the specimen with the highest water absorption was Specimen 5 (20% Wood Powder, 20% Coconut Powder, 20% Aluminum Powder, 40% Epoxy Resin) with an absorption of 1.54 grams. The specimen with the highest oil absorption was Specimen 2 (20% Wood Powder, 20% Coconut Powder, 5% Aluminum Powder, 55% Epoxy Resin) with an absorption of0.28 grams. The lowest water and oil absorption values were observed in Specimen 3 (20% Wood Powder, 20% Coconut Powder, 10% Aluminum Powder, 50% Epoxy Resin), with absorptions of 1.04 grams and 0.08 grams, respectively. Additionally, Specimen 5 exhibited the highest density change in water and oil absorption tests, with values of 0.14 g/cm³ and 0.16 g/cm³, respectively, while the smallest density change was recorded in Specimen 1 (20% Wood Powder, 20% Coconut Powder, 0% Aluminum Powder, 60% Epoxy Resin), with changes of 0.05 g/cm³ and 0.01 g/cm³. The specimen with the greatest volume change in water and oil absorption was Specimen 5 and Specimen 2, respectively (20% Wood Powder, 20% Coconut Powder, 5% Aluminum Powder, 55% Epoxy Resin). Meanwhile, the smallest volume change in water and oil absorption was found in Specimen 1. These findings provide valuable insights into the optimal composition for composite-based clutch lining materials.

Item Type: Thesis (Sarjana)
Additional Information: 1). Ahmad Kholil, S.T., M.T. 2). Dr. Siska Titik Dwiyati, M.T.
Subjects: Bahasa dan Kesusastraan > Bahasa Inggris
Teknologi dan Ilmu Terapan > Teknik Mesin, Mekanika Teknik
Teknologi dan Ilmu Terapan > Manufaktur
Divisions: FT > S1 Pendidikan Teknik Mesin
Depositing User: Anrico Daniel Kalalo .
Date Deposited: 21 Feb 2025 09:13
Last Modified: 21 Feb 2025 09:13
URI: http://repository.unj.ac.id/id/eprint/53240

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