1.
Dong Y., Garbatov Y., Guedes Soares C., Fatigue crack initiation assessment of welded joints accounting for residual stress.
Fatigue & Fracture of Engineering Materials & Structures, 2018, 41, 1823-1837.
2.
Dong Y., Garbatov Y., Guedes Soares C., A two-phase approach to estimate fatigue crack initiation and propagation lives of notched structural components.
International Journal of Fatigue, 2018, 116, 523-534.
3.
Dong Y., Teixeira A.P., Guedes Soares C., Time-variant fatigue reliability assessment of welded joints based on the PHI2 and response surface methods.
Reliability Engineering & System Safety, 2018, 177: 120-130.
4.
Dong Y., Guedes Soares C., Stress distribution and fatigue crack propagation analyses in welded joints.
Fatigue & Fracture of Engineering Materials & Structures, 2019, 42, 69-83.
5.
Dong Y., Teixeira A.P., Guedes Soares C., Fatigue reliability analysis of butt welded joints with misalignments based on hotspot stress approach.
Marine Structures, 2019, 65: 215-228.
6.
Dong Y., Teixeira A.P., Guedes Soares C., Application of adaptive surrogate models in time-variant fatigue reliability assessment of welded joints with surface cracks.
Reliability Engineering & System Safety, 2020, 195: 106730.
7. Yue, J.,
Dong, Y., Guedes Soares C., An experimental-finite element method based on beach marks to determine fatigue crack growth rate in thick plates with varying stress states.
Engineering Fracture Mechanics, 2018, 196, 123-141.
8.
Dong Y., Garbatov Y., Guedes Soares C., Improved effective notch strain approach for fatigue reliability assessment of load-carrying fillet welded cruciform joints in low and high cycle fatigue.
Marine Structures, 2021, 75: 102849.
9.
Dong Y., Garbatov Y., Guedes Soares C., Strain-based low cycle fatigue reliability assessment of welded ship structural joints.
Marine Structures, 2021, 75: 102878.
10.
Dong Y., Garbatov Y., Guedes Soares C., Fatigue strength assessment of ship structures based on time-domain strain approach.
Journal of Ship Research (In press). https://www.onepetro.org/journal-paper/SNAME-JSR-04180019
11. Li S.,
Dong Y., Guedes Soares C., A procedure to generate design load-time histories for fatigue strength assessment of offshore structures.
Ocean Engineering, 2020, 213: 107707.
12. Kang J, Geng X, Bai X,
Dong Y.*, Risk assessment of FPSO topside based on generalized Stochastic Petri Net. Ocean Engineering, 2021, 238: 109732.
13.
Dong Y., Kong X., An G., Kang J., Fatigue reliability of single-sided girth welds in offshore pipelines and risers accounting for non-destructive inspection. Marine Structures, 2022, 86: 103268.
14.
Dong Y., Garbatov Y., Guedes Soares C., Review on uncertainties in fatigue loads and fatigue life of ships and offshore structures. Ocean Engineering, 2022, 264: 112514.
15.
Dong Y, Ji G, Fang L, et al. Fatigue Strength Assessment of Single-Sided Girth Welds in Offshore Pipelines Subjected to Start-Up and Shut-Down Cycles.
Journal of Marine Science and Engineering, 2022, 10(12): 1879.
16.
Dong Y., Garbatov Y., Guedes Soares C., Recent Developments in Fatigue Assessment of Ships and Offshore Structures.
Journal of Marine Science and Application, 2022.
17.
Dong Y, Zhang J, Zhong S, et al. Simplified Strength Assessment for Preliminary Structural Design of Floating Offshore Wind Turbine Semi-Submersible Platform.
Journal of Marine Science and Engineering, 2024, 12(2): 259.
18. Kong X, Kang J, Li H,
Dong Y, Kang H. Risk analysis of offshore rocket launch propellant filling system under data and knowledge scarcities.
Ocean Engineering, 2024, 300: 117435.
19. Liu L,
Dong Y*, Yang H, Xu M, Liu X, Zhang L, Garbatov Y*. Hot-Spot Stress Analyses of a T-Shaped Tubular Joint Subjected to Uniform, Grooving and Non-uniform Corrosion.
Applied Sciences. 2024; 14(11):4812. https://doi.org/10.3390/app14114812
20.
Dong Y, Ai Z, Liu L. Numerical Investigation on the Effect of Material Inhomogeneity of Welded Joints on the Local Stress and Strain.
Journal of Marine Science and Application, 2025. (In press)
20.
董岩,乐京霞,吴卫国,张文华.江海直达宽扁船型弯扭强度直接计算的一种简化方法.
船舶工程, 2014, 36(1), 6-9.
21. 孔祥宇等,氢动力船加注过程高压氢气泄漏数值模拟. 太阳能学报,2024,45(03):298-304.
- Conference paper & Chapter
1.
Dong Y., Yue J., Yi Q., Investigation on abnormal crack front in fatigue crack growth rate test for thick high tensile steel plate. OMAE2013-10688.
2.
Dong Y., Guedes Soares C., On the fatigue crack initiation point of load-carrying fillet welded joints, in: C. Guedes Soares, R. Dejhalla, D. Pavletic (Eds.) Towards Green Marine Technology and Transport, Taylor & Francis Group, London, UK, 2015, pp. 407-416.
3.
Dong Y., Guedes Soares C., Estimation of effective notch strain for fatigue strength assessment of welded structures under multiaxial stress state, in: C. Guedes Soares, R. Dejhalla, D. Pavletic (Eds.) Towards Green Marine Technology and Transport, Taylor & Francis Group, London, UK, 2015, pp. 397-406.
4.
Dong Y., Garbatov Y., Guedes Soares C., Fatigue analysis and optimisation of non-load-carrying fillet welded joints based on the effective notch stress approach, in: C. Guedes Soares, T.A. Santos (Eds.) Maritime Technology and Engineering III: Proceedings of the 3rd International Conference on Maritime Technology and Engineering, Taylor & Francis Group, London, UK, 2016, pp. 443-450.
5.
Dong Y., Garbatov Y., Guedes Soares C., Fatigue strength assessment of an annealed butt welded joint accounting for material inhomogeneity, in: C. Guedes Soares, Y. Garbatov (Eds.) Progress in the Analysis and Design of Marine Structures, Taylor & Francis Group, London, UK, 2017, pp. 349-359.
6.
Dong Y., Guedes Soares C., Uncertainty analysis of local strain and fatigue crack initiation life of welded joints under plane strain condition, in: C. Guedes Soares, Y. Garbatov (Eds.) Progress in the Analysis and Design of Marine Structures, Taylor & Francis Group, London, UK, 2017, pp. 337-347.
7.
Dong Y., Garbatov Y., Guedes Soares C., Strain-based fatigue reliability analysis of a load-carrying fillet welded cruciform joint, OMAE2018-78025.
8.
Dong Y., Garbatov Y., Guedes Soares C., Fatigue reliability assessment of fillet welded cruciform joints based on the fatigue notch factor and local strain approach, OMAE2018-78032.
9. Yue J.,
Dong Y., Zhou H., Fatigue Analysis on a Multi-planer Tubular KK Joints Based on Scalded Model Test. ISOPE, 2012.
10. Lillemäe-Avi I., Remes H.,
Dong Y., Garbatov Y., Quéméner Y., Eggert L., & Yue J., Benchmark study on considering welding-induced distortion in structural stress analysis of thin-plate structures, in: C. Guedes Soares, Y. Garbatov (Eds.) Progress in the Analysis and Design of Marine Structures, Taylor & Francis Group, London, UK, 2017, pp. 387-394.
11. Garbatov Y.,
Dong Y., Rörup J., Vhanmane S., Villavicencio R.. Fatigue reliability of butt-welded joints based on spectral fatigue damage assessment, in: C. Guedes Soares, A.P. Teixeira (Eds.) Maritime Transportation and Harvesting of Sea Resources, Taylor & Francis Group, London, UK, 2017, pp. 611-616.
12. Rörup J., Garbatov Y.,
Dong Y., Uzunoglu E., Parmentier G., Andoniu A., ... & Yue J., Round robin study on spectral fatigue assessment of butt-welded joints, In: C. Guedes Soares, A.P. Teixeira (Eds.) Maritime Transportation and Harvesting of Sea Resources, Taylor & Francis Group, London, UK, 2017, pp. 663-670.
13. Garbatov Y., et al., Report of Committee III. 2: Fatigue and Fracture, in: M.L. Kaminski and P. Rigo (Eds.) Proceedings of the 20th International Ship and Offshore Structures Congress (ISSC 2018) Volume I, IOS Press, 2018, pp.441-547.
14. Kong X,
Dong Y, Kang J, et al. Quantitative Risk Assessment and Management of Hydrogen Leaks from Offshore Rocket Launching Platforms//2023 9th International Symposium on System Security, Safety, and Reliability (ISSSR). IEEE, 2023: 149-155.
15.
Zhong S, Dong Y, Zhang J, et al. Soil-structure reliability assessment of fixed monopile offshore wind turbine based on modified environmental contour method[C]//14th International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering (QR2MSE 2024). IET, 2024, 2024: 187-195.