Presentation title Authors DOI Fracture mechanics and crack growth rate of a crack in the weld metal and the heat affected zone of A.Čabrilo, K.Gerić https://doi.org/10.53254/ESISTUBE.ECF22_E.4 Quantifying the Deleterious Effect of Sea water on the Fatigue Life of Welded Steel Joints Using a F A. Smith, M. Knop https://doi.org/10.53254/ESISTUBE.ECF22_E.5 Plasticity induced intergranular and “quasi cleavage” fracture of lath martensitic steels in hydroge M. Dadfarnia, P. Sofronis, A. Nagao, B.P. Somentay, R.O. Ritchie https://doi.org/10.53254/ESISTUBE.ECF22_F.1 Proposal and verification of novel fatigue crack propagation simulation method by finite element method Temma Sano, Daisuke Sasaki, Motomichi Koyam, Shigeru Hamada, Hiroshi Noguchi https://doi.org/10.53254/ESISTUBE.ECF22_F.2 Recent studies of hydrogen embrittlement in structural materials Dan Eliezer, Ravit Silverstein https://doi.org/10.53254/ESISTUBE.ECF22_F.3 Revealing of hydrogen assisted crack growth mechanism in the low carbon steel by the in situ mechani E. D. Merson https://doi.org/10.53254/ESISTUBE.ECF22_F.4 The crucial defects induced in austenitic stainless steel upon hydrogen embrittlement by positron an M. Fujinami https://doi.org/10.53254/ESISTUBE.ECF22_F.5 The synergistic interplay of the localized plasticity HELP and decohesion HEDE mechanisms of hydroge Milos B. Djukic https://doi.org/10.53254/ESISTUBE.ECF22_F.6 Toward a non destructive diagnostic analysis tool of exercises pipelines models and experiences G. Bolzon, M. Talassi https://doi.org/10.53254/ESISTUBE.ECF22_F.7 Tracking Hydrogen Embrittlement using Short Fatigue Crack Behavior of Metals Vishal Singh, Rajwinder Singh, Amanjot Singh, Dhiraj K. Mahajan https://doi.org/10.53254/ESISTUBE.ECF22_F.8 Understanding the hydrogen embrittlement by novel critical experiments Bjørn Rune Rogne, Yun Deng, Tarlan Hajilou, Di Wan, Xu Lu, Dong Wang, Afrooz Barnoush https://doi.org/10.53254/ESISTUBE.ECF22_F.9 Understanding the interaction between a steel microstructure and hydrogen: the key to develop more hydrogen resistant materials? Tom Depover, Kim Verbeken https://doi.org/10.53254/ESISTUBE.ECF22_F.10
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