PSI - Issue 82

A.H. Jabbari Mostahsan et al. / Procedia Structural Integrity 82 (2026) 169–173 A. H. Jabbari Mostahsan et al. / Structural Integrity Procedia 00 (2026) 000–000

173

5

Acknowledgement The authors would like to thank the Competence Centers for Excellent Technologies (COMET) Programme financed by the Austrian Federal Ministries for Innovation, Mobility and Infrastructure (BMIMI) and for Economy, Energy and Tourism (BMWET), and co-financed by the Federal Provinces of Styria, Upper Austria, Tyrol and Vienna. COMET is managed by the Austrian Research Promotion Agency (FFG). References ANSI/NACE TM0177, 2016. Laboratory testing of metals for resistance to sulfide stress cracking and stress corrosion cracking in H 2 S environments, NACE International, Houston, Texas, USA. Drexler, A., Konert, F., Sobol, O., Rhode, M., Domitner, J., Sommitsch, C., Böllinghaus, T., 2022. Enhanced gaseous hydrogen solubility in ferritic and martensitic steels at low temperature. International Journal of Hydrogen Energy 47, 39639−39653. Drexler, A., Pastore, S., Domitner, J., 2025. Modeling bulk diffusion of hydrogen in X70 pipeline steel. Scientific Reports 15, 6363. Ghosh, G., Rostron, P., Garg, R., Panday, A., 2018. Hydrogen induced cracking of pipeline and pressure vessel steels: A review. Engineering Fracture Mechanics 199, 609–618. ISO 11114-4, 2017. Transportable gas cylinders – Compatibility of cylinder and valve materials with gas contents, Part 4: Test methods for selecting steels resistant to hydrogen embrittlement. International Organization for Standardization (ISO), Geneva, Switzerland. Jabbari, A., Silvayeh, Z., Auer, P., Stippich, J., Drexler, A., Domitner, J., 2025. Evaluation of environment-assisted cracking using wedge-loaded compact tension specimens. Procedia Structural Integrity 68, 874‒879. Jabbari, A., Silvayeh, Z., Auer, P., Stöhr, T., Domitner, J., 2026. Using wedge-loaded compact tension specimens for investigating hydrogen-induced cracking, submitted for publication . Li, H., Niu, R., Li, W., Lu, H., Cairney, J., Chen, Y.-S., 2022. Hydrogen in pipeline steels: Recent advances in characterization and embrittlement mitigation. Journal of Natural Gas Science and Engineering 105, 104709. Ohaeri, E.G., Qin, W., Szpunar, J., 2021. A critical perspective on pipeline processing and failure risks in hydrogen service conditions. Journal of Alloys and Compounds 857, 158240. Rahimi, S., Verbeken, K., Depover, T., Proverbio, E., 2025. Hydrogen embrittlement of pipeline steels under gaseous and electrochemical charging: A comparative review on tensile properties. Engineering Failure Analysis 167, 108956.