Presentation title Authors DOI Péter; Pataki, Márton; Szávai, Szabolcs CRYSTAL PLASTICITY COUPLED COHESIVE INTERFACE SIMULATIONS OF INTERGRANULAR CRACKING IN NICKEL-BASED ALLOY 600 Shi, Puyu; Jivkov, Andrey; Engelberg, Dirk; Smith, Mike https://doi.org/10.53254/ESISTUBE.ECF24.286 EVALUATING THE SENSITIVITIES OF CISCC FOR STAINLESS STEEL IN NUCLEAR WASTE STORAGE CANISTER ENVIRONMENTS Blust, Sarah M.; Burns, James T. https://doi.org/10.53254/ESISTUBE.ECF24.287 SERVICEABILITY ASSESSMENT OF EXISTING GAS PIPELINES OF UKRAINE UNDER HYDROGEN TRANSPORTATION Zvirko, Olha https://doi.org/10.53254/ESISTUBE.ECF24.288 HYDROGEN EMBRITTLEMENT OF TI6AL-4V MANUFACTURED WITH ELECTRON BEAM POWDER BED FUSION (PBF-EB) Endrös, Paula; Razavi, Nima; Johnsen, Roy; Lu, Xu https://doi.org/10.53254/ESISTUBE.ECF24.289 IMPACT OF HYDROGENMICROSTRUCTURE INTERACTIONS ON FRACTURE BEHAVIOR IN ADDITIVELY MANUFACTURED 718 ALLOY Cozlin, Dylan; Medina, Frank; Diaz, Julio C.; Nabil, Shad T.; Oudriss, Abdelali; Feaugas, Xavier; Bouhattate, Jamaa https://doi.org/10.53254/ESISTUBE.ECF24.290 FRACTURE BEHAVIOUR OF PIPELINE STEEL DEPENDING ON HYDROGEN CONTENT IN MATERIAL Syrotyuk, Andriy; Dmytrakh, Ihor; Leshchak, Rostyslav; Malyk, Oleh https://doi.org/10.53254/ESISTUBE.ECF24.291 INVESTIGATING THE COMPATIBILITY OF METALLIC MATERIALS WITH HYDROGEN GAS: IMPLICATIONS FOR SUSTAINABLE ENERGY SYSTEMS MAKSOUD, LOUIS; DELAUTRE, GUILLAUME; ABETINOT, FLORENT; BARJHOUX, PIERRE https://doi.org/10.53254/ESISTUBE.ECF24.292 LOADING RATE DEPENDENCY OF MODE I FRACTURE STRENGTH OF EPOXY ADHESIVE JOINTS EVALUATED BY SHPB AND LASER SHOCK-WAVE ADHESION TESTS Takagi, Aoi; Hosoya, Yuichi; Kasuya, Yuto; Yonezu, Akio https://doi.org/10.53254/ESISTUBE.ECF24.293 MODELLING OF DUCTILE FRACTURE USING A MICROMECHANICALLY MOTIVATED MODEL Næss, Håvard; Morin, David; Hopperstad, Odd Sture https://doi.org/10.53254/ESISTUBE.ECF24.294 STRESS STATE IN WELDED JOINT SPECIMENS WITH MULTIPLE DEFECTS Sedmak, Simon; Aran]elović, Mihajlo; Berto, Filippo; Dikić, https://doi.org/10.53254/ESISTUBE.ECF24.295
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