Khaydar, Dihan Muhammad (2025) Analisis Kekuatan Pengait Bentuk Prisma Trapesium Pada Terumbu Buatan Heksagonal. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Terumbu karang memiliki peran penting dalam ekosistem laut, baik sebagai habitat bagi biota laut maupun sebagai pelindung alami pantai dari abrasi. Namun, banyak terumbu karang alami yang mengalami kerusakan, sehingga terumbu buatan mulai digunakan sebagai solusi alternatif untuk mendukung rehabilitasi ekosistem laut. Penelitian ini bertujuan untuk menganalisis kekuatan pengait berbentuk prisma trapezoidal pada susunan modular terumbu buatan heksagonal sebagai struktur pelindung pantai. Fokus utama dari penelitian ini adalah mengkaji pengaruh tinggi dan lebar pengait terhadap tegangan, distribusi beban, dan potensi failure yang berdampak pada kestabilan dan ketahanan struktur AR terhadap gaya-gaya hidrodinamik yang ditimbulkan oleh gelombang laut. Metodologi yang digunakan dalam penelitian ini adalah simulasi numerik berbasis Finite Element Method (FEM) dengan perangkat lunak ANSYS. Model dibuat untuk mengevaluasi variasi dimensi pengait dan mempelajari respons struktur terhadap tekanan hidrodinamik. Validasi model dilakukan melalui konvergensi mesh untuk memastikan akurasi hasil simulasi. Berdasarkan hasil analisis numerik yang dilakukan, desain kaitan optimal kaitan berada pada lebar 50 mm dan tinggi 150 mm dengan nilai stress sebesar 0.437 Mpa dan sesuai dengan simulasi failure yang mengalami nilai safety factor sebesar 0.69725 ketika dikenai tekanan sebesar 0.9 Mpa.
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Coral reefs play an important role in marine ecosystems, both as habitats for marine life and as natural coastal protection from abrasion. However, many natural coral reefs are damaged, so artificial reefs are starting to be used as an alternative solution to support the rehabilitation of marine ecosystems. This research aims to analyze the strength of trapezoidal prism-shaped hooks in AR hexagonal modular arrays as coastal protection structures. The main focus of this research is to examine the effect of hook height and width on stress, load distribution, and fracture potential, which impact the stability and resistance of AR structures to hydrodynamic forces generated by ocean waves. The methodology used in this research is Finite Element Method (FEM)-based numerical simulation with ANSYS software. The model was built to evaluate the variation of hook dimensions and study the response of the structure to hydrodynamic stresses. Model validation was conducted through mesh convergence to ensure the accuracy of the simulation results. Based on the results of the numerical analysis, the optimal hook design was found to be 50 mm wide and 150 mm high with a stress value of 0.437 Mpa and in accordance with the fracture simulation which experienced a safety factor value of 0.69725 when subjected to a pressure of 0.9 Mpa.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Interlocking, Terumbu Buatan Heksagonal, ANSYS. Interlocking, Artificial Reef, ANSYS. |
| Subjects: | T Technology > TC Hydraulic engineering. Ocean engineering > TC335 Sea-walls--Design and construction |
| Divisions: | Faculty of Marine Technology (MARTECH) > Ocean Engineering > 38201-(S1) Undergraduate Thesis |
| Depositing User: | Dihan Muhammad |
| Date Deposited: | 17 Jul 2025 07:21 |
| Last Modified: | 17 Jul 2025 07:21 |
| URI: | http://repository.its.ac.id/id/eprint/119967 |
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