PSI - Issue 54

Liese Vandewalle et al. / Procedia Structural Integrity 54 (2024) 180–187 Liese Vandewalle/ Structural Integrity Procedia 00 (2019) 000 – 000

187

8

might be linked to interface carbon-vacancies. However, some discrepancies still exist regarding binding energy and H content when considering local equilibrium partitioning. Acknowledgements The authors wish to acknowledge Elien Wallaert for the TEM investigations. They would also like to thank Simon Spoelders as he performed considerable part of the experiments in the context of his master dissertation. Furthermore, the authors wish to thank the doctoral and senior postdoctoral fellowship of the Research Foundation – Flanders (FWO) via grant 11F6520N and 12ZO420N and the Special Research Fund (BOF), UGent (grants BOF15/BAS/062, OF/GOA/026, and BOF20/BAS/121) for support. References Asahi, H., Hirakami, D., and Yamasaki, S. 2003. Hydrogen Trapping Behaviour in Vanadium-Added Steel. ISIJ International 43, 527-33. Baker, T. N. 2013. Processes, Microstructure and Properties of Vanadium Microalloyed Steels. Materials Science and Technology 25, 1083-107. Choo, W. Y., and Lee, J.-Y. 1982. Thermal Analysis of Trapped Hydrogen in Pure Iron. Metallurgical Transactions A 13, 135-40. De Seranno, T., Vandewalle, L., Depover, T., Verliefde, A. R. D., and Verbeken, K. 2020. Mechanical Degradation of Fe-C-X Steels by Acidic Stress-Corrosion Cracking. Corrosion Science 167. Depover, T., and Verbeken, K. 2016a. The Effect of Tic on the Hydrogen Induced Ductility Loss and Trapping Behavior of Fe-C-Ti Alloys. Corrosion Science 112, 308-26. ——— . 2016b. Evaluation of the Effect of V 4 C 3 Precipitates on the Hydrogen Induced Mechanical Degradation in Fe-C-V Alloys. Materials Science and Engineering: A 675, 299-313. Drexler, A., Depover, T., Leitner, S., Verbeken, K., and Ecker, W. 2020. Microstructural Based Hydrogen Diffusion and Trapping Models Applied to Fe – C X Alloys. Journal of Alloys and Compounds 826, 154057. Drexler, A., Depover, T., Verbeken, K., and Ecker, W. 2019. Model-Based Interpretation of Thermal Desorption Spectra of Fe-C-Ti Alloys. Journal of Alloys and Compounds 789, 647-57. Echeverri Restrepo, S., Di Stefano, D., Mrovec, M., and Paxton, A. T. 2020. Density Functional Theory Calculations of Iron - Vanadium Carbide Interfaces and the Effect of Hydrogen. International Journal of Hydrogen Energy 45, 2382-89. Gorni, A. A. 2011. Steel Forming and Heat Treating Handbook (São Vicente, Brazil). Kawakami, K., and Matsumiya, T. 2012. Numerical Analysis of Hydrogen Trap State by Tic and V4c3 in Bcc-Iron. ISIJ International 52, 1693-97. Kissinger, H. E. 1957. Reaction Kinetics in Differential Thermal Analysis. Analytical Chemistry 29, 1702-06. Lee, J., Lee, T., Kwon, Y. J., Mun, D.-J., Yoo, J.-Y., and Lee, C. S. 2016. Effects of Vanadium Carbides on Hydrogen Embrittlement of Tempered Martensitic Steel. Metals and Materials International 22, 364-72. Nagumo, M. 2016. Fundamentals of Hydrogen Embrittlement (Springer, Singapore). Pérez Escobar, D., Wallaert, E., Duprez, L., Atrens, A., and Verbeken, K. 2013. Thermal Desorption Spectroscopy Study of the Interaction of Hydrogen with Tic Precipitates. Metals and Materials International 19, 741-48. Speich, G. R., and Leslie, W. C. 1972. Tempering of Steel. Metallurgical and Materials Transactions B 3, 1043-54. Takahashi, J., Kawakami, K., and Kobayashi, Y. 2018. Origin of Hydrogen Trapping Site in Vanadium Carbide Precipitation Strengthening Steel. Acta Materialia 153, 193-204. Takahashi, J., Kawakami, K., and Tarui, T. 2012. Direct Observation of Hydrogen-Trapping Sites in Vanadium Carbide Precipitation Steel by Atom Probe Tomography. Scripta Materialia 67, 213-16. Turk, A., San Martín, D., Rivera-Díaz-del-Castillo, P. E. J., and Galindo-Nava, E. I. 2018. Correlation between Vanadium Carbide Size and Hydrogen Trapping in Ferritic Steel. Scripta Materialia 152, 112-16. Vandewalle, L., Depover, T., and Verbeken, K. 2023. Hydrogen Trapping of Carbides During High Temperature Gaseous Hydrogenation. International Journal of Hydrogen Energy . Wei, F. G., and Tsuzaki, K. 2006. Quantitative Analysis on Hydrogen Trapping of Tic Particles in Steel. Metallurgical and Materials Transactions A 37, 331-53.