Fatigue life analysis is often overlooked in ship development, leading to an uncertain understanding of a ship’s construction lifespan. This study focuses on the fatigue life of the car deck, which is affected by deformation on a ro-ro ferry. The research aims to determine the maximum stress, location, the cause of deformation, and the fatigue life of the car deck on a ro-ro passenger ship. The calculations assess the car deck’s lifespan and provide a reference for future design considerations. Finite element analysis (FEA) is used, with fatigue life calculated using the Sonderberg method. The research begins with calculating the ship’s weight and buoyancy distribution, then determining the ship’s longitudinal strength from the load distribution. The analysis reveals that the highest stress occurs under hogging wave conditions, exceeding the yield strength of 321 MPa. Specifically, at overload and hogging wave conditions, the highest stress of 486.1 MPa is found on the starboard side between longitudinal stiffeners 1 and 2 (900 mm from the centerline), between frames 56 and 57, with a fatigue life of 4.3 years.

Badan Pusat Statistik. (2019). Statistika Transportasi Laut 2019. Berita Resmi Statistik.

PT Trans Asia Consultants. (2009). Kajian Analisis Trend Kecelakaan Transportasi Laut Tahun 2003-2008. Laporan Akhir.

Malisan, J. (2010). Analisis Kecenderungan Kecelakaan Kapal di Indonesia. Warta Penelitian Perhubungan, 22, 72–83.

Rachman, A., Yulianto, T., & Setyawan, D. (2018). Perancangan Aplikasi Perhitungan dan Optimisasi Konstruksi Profil pada Midship Kapal Berdasar Rule Biro Klasifikasi Indonesia. Jurnal Teknik ITS, 7(1)

Wahyu Dwi Yunanto, Imam Pujo Mulyatno, A. T. (2014). Analisa Kekuatan Konstruksi Car Deck Pada Kapal. Kapal Undip.

Andreas Ricardo Hasian Siagian, Imam Pujo Mulyono, B. A. . (2015). Analisa Shear Stress Pada Struktur Cincin Kapal Crude Oil Tanker 6500 Dwt Berbasis Metode Elemen Hingga. Jurnal Teknik Perkapalan, 3(2), 309–318.

Hibeller, R.C. (1997). Mechanics of Material, Third Edition. New Jersey: Prentice-Hall.

Bai, Y. (2003). Marine Structural Design. In Marine Structural Design.

Macdonald AJ. 2002. Struktur dan Arsitektur Edisi Kedua. Jakarta (ID): Penerbit Erlangga.

Okumoto, Y., Takeda, Y., Mano, M., & Okada, T. (2009). Design of ship hull structures: A practical guide for engineers. In Design of Ship Hull Structures: A Practical Guide for Engineers.

Andreas Ricardo Hasian Siagian, Imam Pujo Mulyono, B. A. . (2015). Analisa Shear Stress Pada Struktur Cincin Kapal Crude Oil Tanker 6500 Dwt Berbasis Metode Elemen Hingga. Jurnal Teknik Perkapalan, 3(2), 309–318.

Shingley. (2006). Mechanical Engineering Design. (Vol. 1999, Nomor December).