«Previous Article|Table of Contents|Next Article»

Citation:
　J. Kodvanj,Y. Garbatov,C. Guedes Soares,et al.Numerical Analysis of Stress Concentration in Non-uniformly Corroded Small-Scale Specimens[J].Journal of Marine Science and Application,2021,(1):1-9.[doi:10.1007/s11804-020-00154-2]
Click and Copy

Numerical Analysis of Stress Concentration in Non-uniformly Corroded Small-Scale Specimens

Info

Title:: Numerical Analysis of Stress Concentration in Non-uniformly Corroded Small-Scale Specimens

Author(s):: J. Kodvanj¹; Y. Garbatov²; C. Guedes Soares²; J. Parunov¹

Affilations:

Keywords:: Fatigue life; Fatigue tests; Corrosion; Stress concentration factors; Finite element method

DOI:: 10.1007/s11804-020-00154-2

Abstract:: A numerical evaluation of stress concentrations of corroded plate surfaces of small-scale corroded steel specimens is compared with the experimentally estimated ones. Eleven specimens were cut from a steel box girder, which was initially corroded in real seawater conditions. The surface of all corroded specimens was analysed applying photogrammetry techniques, and a statistical description of an idealised corroded surface of each specimen was established. Fatigue lives of specimens are determined from the fatigue tests. Based on experimentally obtained fatigue lives, the stress concentration factors are calculated concerning the ideally smooth specimens. The correlation between the statistical parameters of the corroded specimen surfaces and the estimated stress concentration factors is analysed. Idealised corroded surfaces, converted in graphical format, are then used for the finite element modelling in ABAQUS software, and stress concentration factors are estimated from the finite element results. A convergence study is performed to determine the appropriate finite element mesh density. Comparison between experimentally obtained and numerically estimated stress concentration factors is performed as well as correlation analysis between actual and finite element predicted crack locations.

References:

BV (1996) Fatigue strength of welded ship structures, Bureau Veritas
DnV (2010) Fatigue assessment of ship structures, Classification Notes No 30.7
Domzalicki P, Skalski I, Guedes Soares C, Garbatov Y (2009) Large scale corrosion tests. In: Guedes Soares C, Das PK (eds) Analysis and Design of Marine Structures. London, Taylor & Francis Group, pp 193–198
Fricke W, Petershagen H (1992, 1992) Detail design of welded ship structures based on hot-spot stresses. In: Caldwell JB, Ward G (eds) Proceedings of the Practical Design of Ships and Mobile Units. Elsevier Science Limited, pp 1087–1100
Garbatov Y (2016) Fatigue strength assessment of ship structures accounting for a coating life and corrosion degradation. Int J Struct Integr 7:305–322
Garbatov Y, Rudan S, Guedes Soares C (2002) Fatigue damage of structural joints accounting for nonlinear corrosion. J Ship Res 46:289–298
Garbatov Y, Guedes Soares C, Parunov J (2014a) Fatigue strength experiments of corroded small scale steel specimens. Int J Fatigue 59:137–144
Garbatov Y, Guedes Soares C, Parunov J, Kodvanj J (2014b) Tensile strength assessment of corroded small scale specimens. Corros Sci 85:296–303
Guedes Soares C, Garbatov Y (1998) Reliability of maintained ship hull girders subjected to corrosion and fatigue. Struct Saf 20:201–219
Guedes Soares C, Garbatov Y (1999) Reliability of corrosion protected and maintained ship hulls subjected to corrosion and fatigue. J Ship Res 43:65–78
Guedes Soares C, Moan T (1991) Model uncertainty in the long-term distribution of wave-induced bending moment for fatigue design of ship structure. Mar Struct 4:295–315
Guedes Soares C, Garbatov Y, von Selle H (2003) Fatigue damage assessment of ship structural components based on the long-term distribution of local stresses. Int Shipbuild Prog 50:35–56
Haagensen PJ, Maddox SJ (2013) IIW Recommendations on methods for improving the fatigue strength of welded joints: doc. IIW-2142-110. International Institute of Welding, Woodhead Publishing, Paris
Hobbacher A (2009) Recommendations for fatigue design of welded joints and components, IIW doc.1823-07, Welding Research Council Bulletin 520. International Institute of Welding, New York
Jiang X, Guedes Soares C (2012) A closed form formula to predict the ultimate capacity of pitted mild steel plate under biaxial compression. Thin-Walled Struct 59:27–34
Moan T, Ayala-Uraga E (2008) Reliability-based assessment of deteriorating ship structures operating in multiple sea loading climates. Reliab Eng Syst Saf 93:433–446
Nakai T, Matsushita H, Yamamoto N (2006) Effect of pitting corrosion on the ultimate strength of steel plates subjected to in-plane compression and bending. J Mar Sci Technol 11:52–64
Niemi E (1992) Determination of stresses for fatigue analysis of welded components. Proceedings of the IIW, Conference on Design in Welded Construction. 57–74
Niemi E (1995) Recommendation concerning stress determination for fatigue analysis of weld components. Abington Publishing
Niemi E, Fricke W, Maddox S (2004) Structural stress approach to fatigue analysis of welded components - designer’s guide. IIW Doc. XIII-1819-00/XV-1090-01
Paik JK, Lee JM, Ko MJ (2003) Ultimate compressive strength of plate element with pit corrosion wastage. J Eng Maritime Environ 217:185–200
Paris P, Erdogan F (1963) A critical analysis of crack propagation laws. J Basic Eng 85:528–534
Parunov J, ?orak M, Gilja I (2013) Calculated and prescribed stress concentration factors of ship side longitudinal connections. Eng Struct 52:629–641
Petershagen H, Fricke W, Massel T (1991) Application of the local approach to the fatigue strength assessment of welded structures in ships. Int Inst Weld
Radaj D (1990) Design and analysis of fatigue-resistant welded structures. Abington Publishing, Cambridge
Radaj D, Sonsino CM, Fricke W (2009) Recent developments in local concepts of fatigue assessment of welded joints. Int J Fatigue 31:2–11
Saad-Eldeen S, Garbatov Y, Guedes Soares C (2011) Corrosiondependent ultimate strength assessment of aged box girders based on experimental results. J Ship Res 55:289–300
Saad-Eldeen S, Garbatov Y, Guedes Soares C (2013a) Effect of corrosion severity on the ultimate strength of a steel box girder. Eng Struct 49:560–571
Saad-Eldeen S, Garbatov Y, Guedes Soares C (2013b) Effect of corrosion degradation on ultimate strength of steel box girders. Corros Eng Sci Technol 47:272–283
Silva JE, Garbatov Y, Guedes Soares C (2013) Ultimate strength assessment of rectangular steel plates subjected to a random localised corrosion degradation. Eng Struct 52:295–305
Tran Nguyen K, Garbatov Y, Guedes Soares C (2012) Fatigue damage assessment of corroded oil tanker details based on global and local stress approaches. Int J Fatigue 43:197–206
Tran Nguyen K, Garbatov Y, Guedes Soares C (2013) Spectral fatigue damage assessment of tanker deck structural detail subjected to time-dependent corrosion. Int J Fatigue 48:147–155
TSCF (1992) Condition evaluation and maintenance of tanker structures, tanker structure co-operative forum. Witherby & Co, London
TSCF (1997) Guidance Manual for Tanker Structures, Tanker Structure Cooperative Forum
Wang G, Spencer J, Elsayed T (2003) Estimation of corrosion rates of structural members in oil tankers. Proceeding of 22nd International Conference on Offshore Mechanics and Arctic Engineering, Paper OMAE2003–37361. ASME
Yamamoto N, Ikagaki K (1998) A study on the degradation of coating and corrosion on ship’s hull based on the probabilistic approach. J Offshore Mech Arctic Eng 120:121–128

Memo

Memo:: Received date:2020-02-01;Accepted date:2020-06-06。
Foundation item:The work is supported by the Croatian Science Foundation within the projects IP-2013-11-8658 and lP-2019-04-2085. This work is also performed within the scope of the Strategic Research Plan of the Centre for Marine Technology and Ocean Engineering (CENTEC), which is financed by the Portuguese Foundation for Science and Technology (Fundação para a Ciência e Tecnologia - FCT) under contract UIDB/UIDP/00134/2020.
Corresponding author:Y. Garbatov

Commonly used function

Tools

Statistics

Viewed1186
Comments

Last Update: 2021-06-10