Fatigue Life Prediction of Ship Structure Using Spectral-based Fatigue Method: Case Study of 150 DWT Ro-Ro Ship

Abdullah Taufiq Akbar Siregar; Achmad Zubaydi; Dony Setyawan; Rizky Chandra Ariesta; Lukman Firmansyah

doi:10.1088/1755-1315/1585/1/012018

Fatigue Life Prediction of Ship Structure Using Spectral-based Fatigue Method: Case Study of 150 DWT Ro-Ro Ship

Abdullah Taufiq Akbar Siregar
, Achmad Zubaydi^*
, Dony Setyawan
, Rizky Chandra Ariesta
, Lukman Firmansyah

^*Corresponding author for this work

Institut Teknologi Sepuluh Nopember

Research output: Contribution to journal › Conference article › peer-review

Abstract

Ships experience continuous wave loading that drives cyclic stresses and fatigue damage. Since many ships in Indonesia fleet are aging, assessing their fatigue life is essential to ensure safety and continued operation beyond their design life. This research aims to predict the fatigue life of the bottom structure of a 150-DWT Ro-Ro ferry operating at full load on the Bali Strait. Spectral-based method is applied across the full wave-period range from local wave-scatter data. Hydrodynamic responses are computed with 3-D diffraction theory to obtain bending-moment RAOs, which are combined with the Pierson-Moskowitz spectrum to form short-term stress spectra across eight headings. The approach uses the global hull girder bending from wave elevation amplitude to determine RAO stress. Cumulative damage is evaluated with Class-F and the Palmgren-Miner rule for 20-year design life. The cumulative damage index is 0.26098, dominated by west wave direction. The predicted fatigue life is 76.63 years and the extreme stress range is 39 MPa.

Original language	English
Article number	012018
Journal	IOP Conference Series: Earth and Environmental Science
Volume	1585
Issue number	1
DOIs	https://doi.org/10.1088/1755-1315/1585/1/012018
Publication status	Published - 2026
Event	13th International Seminar on Ocean and Coastal Engineering, Environmental and Natural Disaster Management, ISOCEEN 2025 and 2nd International Conference on Medicine, Marine Technology, and Social Science, ICOMMES 2025 - Surabaya, Indonesia Duration: 19 Sept 2025 → 19 Sept 2025

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title = "Fatigue Life Prediction of Ship Structure Using Spectral-based Fatigue Method: Case Study of 150 DWT Ro-Ro Ship",

abstract = "Ships experience continuous wave loading that drives cyclic stresses and fatigue damage. Since many ships in Indonesia fleet are aging, assessing their fatigue life is essential to ensure safety and continued operation beyond their design life. This research aims to predict the fatigue life of the bottom structure of a 150-DWT Ro-Ro ferry operating at full load on the Bali Strait. Spectral-based method is applied across the full wave-period range from local wave-scatter data. Hydrodynamic responses are computed with 3-D diffraction theory to obtain bending-moment RAOs, which are combined with the Pierson-Moskowitz spectrum to form short-term stress spectra across eight headings. The approach uses the global hull girder bending from wave elevation amplitude to determine RAO stress. Cumulative damage is evaluated with Class-F and the Palmgren-Miner rule for 20-year design life. The cumulative damage index is 0.26098, dominated by west wave direction. The predicted fatigue life is 76.63 years and the extreme stress range is 39 MPa.",

author = "Siregar, \{Abdullah Taufiq Akbar\} and Achmad Zubaydi and Dony Setyawan and Ariesta, \{Rizky Chandra\} and Lukman Firmansyah",

note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd.; 13th International Seminar on Ocean and Coastal Engineering, Environmental and Natural Disaster Management, ISOCEEN 2025 and 2nd International Conference on Medicine, Marine Technology, and Social Science, ICOMMES 2025 ; Conference date: 19-09-2025 Through 19-09-2025",

year = "2026",

doi = "10.1088/1755-1315/1585/1/012018",

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journal = "IOP Conference Series: Earth and Environmental Science",

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TY - JOUR

T1 - Fatigue Life Prediction of Ship Structure Using Spectral-based Fatigue Method

T2 - 13th International Seminar on Ocean and Coastal Engineering, Environmental and Natural Disaster Management, ISOCEEN 2025 and 2nd International Conference on Medicine, Marine Technology, and Social Science, ICOMMES 2025

AU - Siregar, Abdullah Taufiq Akbar

AU - Zubaydi, Achmad

AU - Setyawan, Dony

AU - Ariesta, Rizky Chandra

AU - Firmansyah, Lukman

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2026

Y1 - 2026

N2 - Ships experience continuous wave loading that drives cyclic stresses and fatigue damage. Since many ships in Indonesia fleet are aging, assessing their fatigue life is essential to ensure safety and continued operation beyond their design life. This research aims to predict the fatigue life of the bottom structure of a 150-DWT Ro-Ro ferry operating at full load on the Bali Strait. Spectral-based method is applied across the full wave-period range from local wave-scatter data. Hydrodynamic responses are computed with 3-D diffraction theory to obtain bending-moment RAOs, which are combined with the Pierson-Moskowitz spectrum to form short-term stress spectra across eight headings. The approach uses the global hull girder bending from wave elevation amplitude to determine RAO stress. Cumulative damage is evaluated with Class-F and the Palmgren-Miner rule for 20-year design life. The cumulative damage index is 0.26098, dominated by west wave direction. The predicted fatigue life is 76.63 years and the extreme stress range is 39 MPa.

AB - Ships experience continuous wave loading that drives cyclic stresses and fatigue damage. Since many ships in Indonesia fleet are aging, assessing their fatigue life is essential to ensure safety and continued operation beyond their design life. This research aims to predict the fatigue life of the bottom structure of a 150-DWT Ro-Ro ferry operating at full load on the Bali Strait. Spectral-based method is applied across the full wave-period range from local wave-scatter data. Hydrodynamic responses are computed with 3-D diffraction theory to obtain bending-moment RAOs, which are combined with the Pierson-Moskowitz spectrum to form short-term stress spectra across eight headings. The approach uses the global hull girder bending from wave elevation amplitude to determine RAO stress. Cumulative damage is evaluated with Class-F and the Palmgren-Miner rule for 20-year design life. The cumulative damage index is 0.26098, dominated by west wave direction. The predicted fatigue life is 76.63 years and the extreme stress range is 39 MPa.

UR - https://www.scopus.com/pages/publications/105033025339

U2 - 10.1088/1755-1315/1585/1/012018

DO - 10.1088/1755-1315/1585/1/012018

M3 - Conference article

AN - SCOPUS:105033025339

SN - 1755-1307

VL - 1585

JO - IOP Conference Series: Earth and Environmental Science

JF - IOP Conference Series: Earth and Environmental Science

IS - 1

M1 - 012018

Y2 - 19 September 2025 through 19 September 2025

ER -

Fatigue Life Prediction of Ship Structure Using Spectral-based Fatigue Method: Case Study of 150 DWT Ro-Ro Ship

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