AHMAD PRAYOGA, . (2026) ANALISIS KEKUATAN MEKANIK KOMPOSIT SERAT BATANG PISANG DAN SERABUT KELAPA SEBAGAI ALTERNATIF MATERIAL RODA TROLI RAMAH LINGKUNGAN. Diploma thesis, UNIVERSITAS NEGERI JAKARTA.
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Abstract
Penelitian ini bertujuan mengkaji pengaruh variasi komposisi serat batang pisang dan serabut kelapa terhadap sifat mekanik komposit berbasis resin epoksi untuk aplikasi material roda troli berukuran 5 inci. Limbah serat batang pisang dan serabut kelapa dimanfaatkan sebagai penguat komposit ramah lingkungan dengan matriks resin epoksi, menggunakan metode eksperimen melalui pengujian kekerasan, uji tekan, dan pengamatan struktur mikro. Tiga variasi komposisi serat digunakan: spesimen A (serat batang pisang 50% + resin 50%), spesimen B (serat batang pisang 25% + serabut kelapa 25% + resin 50%), dan spesimen C (serabut kelapa 50% + resin 50%) . Hasil uji menunjukkan bahwa nilai kekerasan tertinggi diperoleh pada komposisi serabut kelapa 50% dengan rata-rata 11,37 HV, sedangkan komposit berbasis serat batang pisang 50% memiliki kekerasan terendah 8,4 HV . Pada pengujian tekan, tegangan maksimum rata-rata meningkat dari 44,47 MPa (A) menjadi 53,96 MPa (B) dan 54,08 MPa (C), menunjukkan bahwa serabut kelapa memberikan kontribusi lebih besar terhadap kekuatan tekan komposit dibanding serat batang pisang . Nilai modulus elastisitas juga menunjukkan tren peningkatan dari 790,88 MPa (A) menjadi 836,43 MPa (B) dan 876,43 MPa (C), yang mengindikasikan peningkatan kekakuan seiring bertambahnya fraksi serabut kelapa . Secara keseluruhan, komposit dengan penguat serabut kelapa tunggal maupun campuran menunjukkan sifat mekanik yang lebih baik dan berpotensi digunakan sebagai material alternatif ramah lingkungan untuk roda troli 5 inci. Kata Kunci : Serat batang pisang, Serabut kelapa, Resin epoksi, Uji tekan, Uji kekerasan, Sifat mekanik, Komposit ramah lingkungan. ***** This study aims to examine the effect of varying compositions of banana stem fiber and coconut coir fiber on the mechanical properties of epoxy resin–based composites for 5-inch trolley wheel mateials applications. Agricultural waste such as banana stem fiber and coconut coir fiber was utilized as an eco-friendly reinforcement material with an epoxy resin matrix. The research employed an experimental method involving hardness testing, compression testing, and microstructural observation. Three fiber composition variations were prepared: specimen A (50% banana stem fiber + 50% epoxy resin), specimen B (25% banana stem fiber + 25% coconut coir fiber + 50% epoxy resin), and specimen C (50% coconut coir fiber + 50% epoxy resin). The results show that the highest hardness value was obtained in the specimen with 50% coconut coir fiber, averaging 11.37 HV, while the composite reinforced with 50% banana stem fiber exhibited the lowest hardness of 8.4 HV. In the compression test, the average maximum stress increased from 44.47 MPa (A) to 53.96 MPa (B) and 54.08 MPa (C), indicating that coconut coir fiber contributes more significantly to the compressive strength of the composite compared to banana stem fiber. The Young’s Modulus also showed an increasing trend from 790.88 MPa (A) to 836.43 MPa (B) and 876.43 MPa (C), suggesting an enhancement in stiffness with a higher fraction of coconut coir fiber. Overall, composites reinforced with coconut coir fiber either as a single or hybrid reinforcement demonstrated improved mechanical properties and show strong potential as an eco-friendly alternative material for 5-inch trolley wheel applications. Keywords: Banana stem fiber, Coconut coir fiber, Epoxy resin, Compression test, Hardness test, Mechanical properties, Eco-friendly composite
| Item Type: | Thesis (Diploma) |
|---|---|
| Additional Information: | 1). Dr. Siska Titik Dwiyati, M.T. ; 2). Drs. Syamsuir, M.T. |
| Subjects: | Teknologi dan Ilmu Terapan > Teknik Lingkungan, Teknik Sanitasi Teknologi dan Ilmu Terapan > Teknik Mesin, Mekanika Teknik Teknologi dan Ilmu Terapan > Manufaktur |
| Divisions: | FT > D IV Teknologi Rekayasa Manufaktur |
| Depositing User: | Ahmad Prayoga . |
| Date Deposited: | 30 Jan 2026 08:36 |
| Last Modified: | 30 Jan 2026 08:36 |
| URI: | http://repository.unj.ac.id/id/eprint/64560 |
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