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All Journal International Journal of Marine Engineering Innovation and Research Marine Science and Technology Journal
Boedi Herijono
Politeknik Perkapalan Negeri Surabaya, Indonesia
Automotive Engineering Control & Systems Engineering Decision Sciences, Operations Research & Management Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering Physics Transportation

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Journal : Marine Science and Technology Journal

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Kajian Kekuatan Struktur Pondasi Mesin Induk Harbour Tug Boat Kintan Muthia Yasmine Emily; Priyambodo Nur Ardi Nugroho; Boedi Herijono
Marine Science and Technology Journal Vol 2 No 1 (2021): Marine Science and Technology Journal
Publisher : Universitas Ivet

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31331/maristec.v2i1.1769

Abstract

The main engine has its own weight, and vibration also occurs so the heavier the load that the foundation holds. The foundation has an essential role as a retainer or support for the load, so it must be stronger to withstand the dynamic vibrations of the main engine. The installation of the foundation is made in such a way that the alignment of the engine shaft axis with the propeller shaft is guaranteed. The problem to be solved is how much load is received, whether the stress results still meet the class requirements, and the estimated age of the foundation. Using the calculation of applied mechanics, the load that will be received on the foundation and the main engine foundation construction planning can be known. To find out the results of the construction planning using the Finite Element Method. The analyzed structure is divided into smaller and simpler elements in a finite number by giving the value of the simulated structure boundary conditions. The analysis results show that the maximum stress value obtained is 267.1 MPa, while the allowable stress value is 300 N/mm2. So that the foundation can be declared to have met the requirements and is safe. For fatigue life analysis, the foundation age is 34,422 years, where the age has met the requirements
Co-Authors Antonius Edy Kristiyono Imam Sutrisno Joessianto Eko Poetro Kintan Muthia Yasmine Emily Monika Retno Gunarti Pranowo Sidi Priyambodo Nur Ardi Nugroho