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All issues Volume 706 (2026) E3S Web Conf., 706 (2026) 02013 References
Open Access
Issue
E3S Web Conf.
Volume 706, 2026
3rd International Conference on Environment, Green Technology, and Digital Society (INTERCONNECTS 2025)
Article Number 02013
Number of page(s) 9
Section Engineering and Technology
DOI https://doi.org/10.1051/e3sconf/202670602013
Published online 21 April 2026
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  2. Reymer, P.; Leski, A.; Dziendzikowski, M. Fatigue Crack Propagation Estimation Based on Direct Strain Measurement during a Full-Scale Fatigue Test. Sensors 2022, 22, doi:10.3390/s22052019. [Google Scholar]
  3. Venugopal, A.; Mohammad, R.; Koslan, M.F.S.; Shafie, A.; Ali, A. Bin; Eugene, O. Crack Growth Prediction on Critical Component for Structure Life Extension of Royal Malaysian Air Force (Rmaf) Sukhoi Su-30mkm. Metals (Basel). 2021, 11, doi:10.3390/met11091453. [Google Scholar]
  4. Chen, X.; Li, S.; Liang, Y.; Wang, S.; Yan, L.; Du, S. Fatigue Experiment and Failure Mechanism Analysis of Aircraft Titanium Alloy Wing–Body Connection Joint. Sensors 2025, 25, 1–21, doi:10.3390/s25010150. [Google Scholar]
  5. Su, R.; Huang, L.; Xu, C.; He, P.; Wang, X.; Yang, B.; Wu, D.; Wang, Q.; Dong, H.; Ma, H. Factors Influencing Residual Stresses in Cold Expansion and Their Effects on Fatigue Life—A Review. Coatings 2023, 13, doi:10.3390/coatings13122037. [Google Scholar]
  6. Fageehi, Y.A.; Alshoaibi, A.M. Investigating the Influence of Holes as Crack Arrestors in Simulating Crack Growth Behavior Using Finite Element Method. Appl. Sci. 2024, 14, doi:10.3390/app14020897. [Google Scholar]
  7. Neto, D.M.; Cavaleiro, N.; Sérgio, E.R.; Jesus, J.; Camacho-Reyes, A.; Antunes, F. V. Effect of Crack Flank Holes on Fatigue Crack Growth. Int. J. Fatigue 2023, 170, doi:10.1016/J.IJFATIGUE.2023.107505. [Google Scholar]
  8. Sedmak, A. Fatigue Crack Growth Simulation by Extended Finite Element Method: A Review of Case Studies. Fatigue Fract. Eng. Mater. Struct. 2024, 47, 1819–1855, doi:10.1111/FFE.14277;ISSUE:ISSUE:DOI. [Google Scholar]
  9. Bashiri, A.H.; Alshoaibi, A.M. Adaptive Finite Element Prediction of Fatigue Life and Crack Path in 2d Structural Components. Metals (Basel). 2020, 10, 1–21, doi:10.3390/met10101316. [Google Scholar]
  10. Jones, M.; Main, B.; Maxfield, K.; Barter, S.; Das, R. Predicting Fatigue Crack Growth through the Small and Long Crack Regimes for a Military Transport Aircraft Loading Spectrum Using FASTRAN. Int. J. Fatigue 2023, 171, doi:10.1016/J.IJFATIGUE.2023.107576. [Google Scholar]
  11. Younis, H. Bin; Kamal, K.; Sheikh, M.F.; Hamza, A. Prediction of Fatigue Crack Growth Rate in Aircraft Aluminum Alloys Using Optimized Neural Networks. Theor. Appl. Fract. Mech. 2022, 117, 103196, doi:10.1016/J.TAFMEC.2021.103196. [Google Scholar]
  12. Kumar, M.M.; Prabhu, S.G.; Reddy, C. Damage Tolerance Behaviour of Stiffened Crown Panel of a Transport Aircraft Fuselage. Procedia Struct. Integr. 2024, 60, 177–184, doi:10.1016/j.prostr.2024.05.039. [Google Scholar]
  13. Alshoaibi, A.M.; Fageehi, Y.A. A Comparative Analysis of 3D Software for Modeling Fatigue Crack Growth: A Review. Appl. Sci. 2024, 14, doi:10.3390/app14051848. [Google Scholar]
  14. Aisyah, I.S.; Putra, H.R.; Mulyono; Sukarniyati, S. Analysis of Crack Length and Life Flight Cycle in Center Wing Lower Surface Skin Access Hole Aircraft with DCRACK Software. IOP Conf. Ser. Mater. Sci. Eng. 2021, 1034, 012161, doi:10.1088/1757-899x/1034/1/012161. [Google Scholar]

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