ANALISIS HOTSPOT STRESS PADA SAMBUNGAN TUBULAR BRACE T DENGAN SIMULASI PEMBEBANAN TARIK PADA STRUKTUR BANGUNAN LEPAS PANTAI TIPE JACKET PLATFORM.

Authors

  • Anwar Politeknik Batulicin
  • Rudi Siswanto

DOI:

https://doi.org/10.32722/pt.v22i2.5535

Abstract

Abstract

The jacket platform type offshore building structure is a building that is often used for oil and gas exploitation activities, environmental loads such as wave loads that occur continuously can cause the offshore building structure to experience fatigue. Tubular joints are areas that often experience fatigue or cracking due to stress concentrations that occur in the tubular joints. This research was conducted to find out and calculate the greatest stress points that occur in tubular joints for the T-brace model. The results showed that the hotspot stresses occurred in the elements in the welding area of the joints with a working stress value of 1577.3 Mpa and a value for calculating N integration of 12704.87.

Keywords: Hotspot Stress, Tubular Joint, T Brace

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References

Ahmadi, Hamid, Esmaeil Zavvar. 2015. Stress concentration factors induced by out-of-plane bending loads in ring-stiffened tubular KT-joints of jacket structures. Thin Walled Structures 91, 82-95.

Pan, Z., Wu, G., Si, F., Shang, J., Zhou, H., Li, Q., & Zhou, T. (2022). Parametric study on SCF distribution along the weld toe of internally ring-stiffened two-planar tubular KK joints under axial loading. Ocean Engineering, 248, 110826.

Muis Alie, M.Z., 2016. The Effect Of Symmetrical and Asymmetrical Configuration Shapes On Bukling and Fatique Stength Analysis Of Fixed Offshore Platform. International Journal of Technology (IJTech), Indonesia. ISSN 2086-9614.

Anwar, A., & Bachmid, R. 2020. Optimasi struktur helideck dengan variasi beban helikopter. Construction and Material Journal, 2(3), 155-161.

ROHMAN, A. N. (2021). Analisis In-Place Struktur Fixed Jacket Platform Tipe Empat Kaki (In-Place Analysis Of Fixed Jacket Platform Structure Type Four Legs).

Hossein Nassiraei, Alireza Mojtahedi, Mohammad Ali Lotfollahi-Yaghin, 2018. Static strength of Xjoints reinforced with collar plates subjected to brace tensile loading, Ocean Engineering 161. 227–241

R. L. Tawekal, Fitriany, and M. T. Tukuboya. 2006. “Pengembangan Formula SCF untuk Analisa Kelelahan Joint (Sambungan) T pada Struktur Bangunan Lepas Pantai,” J. Tek. Sipil, vol. 15.

Djatmiko, E. B., 2003. Analisis Kelelahan Struktur Bangunan Laut, Kursus Singkat Offshore Structure Design And Modelling, Surabaya.

Liu, G., Li, Z., Li, Z., & Huang, Y. (2021). A multi-axial fatigue-oriented strategy for fatigue damage monitoring and assessment of tubular joints. Ocean Engineering, 227, 108876.

Hoque, T., & Mahmud, S. M. (2023). Fatigue Analysis of Fillet Welded Joints Using Hotspot Stress Method. Fatigue Analysis of Fillet Welded Joints Using Hotspot Stress Method (May 10, 2023).

Maheswaran, J., Siriwardane, S.C., 2016. Fatigue life estimation of tubular joints–a comparative study. Fatig. Fract. Eng. Mater. Struct. 39 (1), 30–46

Tawekal, R. L., & Heriana, R. (2007). Analisis Kehandalan Anjungan Lepas Pantai Tipe Jacket Berdasarkan Kapasitas Fatigue pada Sambungan. Jurnal Teknik Sipil ITB, 14(2), 93-104.

Ahmadi, H., Lotfollahi-Yaghin, M. A., & Aminfar, M. H. (2011). Effect of stress concentration factors on the structural integrity assessment of multi-planar offshore tubular DKT-joints based on the fracture mechanics fatigue reliability approach. Ocean Engineering, 38(17-18), 1883-1893.

Kencana, Elsa Rizkiya (2014) Analisa Elemen Hingga Untuk Menentukan Hotspot Stress Pada Sambungan Las. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

Qu, H., Huo, J., Xu, C., & Fu, F. (2014). Numerical studies on dynamic behavior of tubular T-joint subjected to impact loading. International Journal of Impact Engineering, 67, 12-26.

Lloyd’s Register, 1997. Stress Concentration Factorsfor Simple Tubular Joints - Assessment of Existing and Development of New Parametric Formulae, London.

Chan, T. H. T., Zhou, T. Q., Li, Z. X., & Guo, L. (2005). Hot spot stress approach for Tsing Ma Bridge fatigue evaluation under traffic using finite element method. Structural Engineering and Mechanics, 19(3), 261-280.

Karamanos, Spyros A., Arie Romeijn, Jaap Wardenier. 2001. SCF equations in multi-planar welded tubular DT-joints including bending effects. Marine Structures, Vol 15, 157-173

Ahmadi, H., Lotfollahi-Yaghin, M. A., & Aminfar, M. H. (2011). Effect of stress concentration factors on the structural integrity assessment of multi-planar offshore tubular DKT-joints based on the fracture mechanics fatigue reliability approach. Ocean Engineering, 38(17-18), 1883-1893.

9.Xu, C., Liu, G., Li, Z., & Huang, Y. (2020). Multiaxial fatigue life prediction of tubular K-joints using an alternative structural stress approach. Ocean Engineering, 212, 107598.

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Published

2023-05-09

How to Cite

Anwar, & Siswanto, R. (2023). ANALISIS HOTSPOT STRESS PADA SAMBUNGAN TUBULAR BRACE T DENGAN SIMULASI PEMBEBANAN TARIK PADA STRUKTUR BANGUNAN LEPAS PANTAI TIPE JACKET PLATFORM . Jurnal Poli-Teknologi, 22(2), 63–70. https://doi.org/10.32722/pt.v22i2.5535

Issue

Vol. 22 No. 2 (2023)

Section

Articles

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Copyright (c) 2023 Anwar, Rudi Siswanto (Author)

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