Issue 51

A. A. Lakhdari et alii, Frattura ed Integrità Strutturale, 51 (2020) 236-253; DOI: 10.3221/IGF-ESIS.51.19 253 [10] Djukic, M.B., Sijacki Zeravcic, V., Bakic, G.M., Sedmak, A., Rajicic, B. (2015). Hydrogen damage of steels: A case study and hydrogen embrittlement model, Eng. Failure Analysis; 58 (2), pp. 485-498. DOI: 10.1016/j.engfailanal.2015.05.017. [11] Ovchinnikov, I.G. and Khvalko, T.A. (2003). Serviceability of structures under high-temperature hydrogen corrosion, ed. Sarat. Gos. Tekhn. Un-t. Saratov, Russia. [12] Balueva, A. (2014). Modeling of Hydrogen Embrittlement Cracking in Pipe-lines under High Pressures, Procedia Materials Science.; 3, pp. 1310-1315. DOI: doi.org/10.1016/j.mspro.2014.06.212. [13] Hardie, D., Charles, E.A., Lopez, A.H. (2006). Hydrogen embrittlement of high strength pipeline steels ; Corrosion Science. ; 48 (12), pp. 4378–4385. DOI: 10.1016/j.corsci.2006.02.011. [14] Novak, P., Yuan, R., Somerday, B.P., Sofronis, P., Ritchie, R.O. (2010). A statistical, physical-based, micro-mechanical model of hydrogen-induced intergranular fracture in steel, J. of Mechanics and Physics of Solids; 58 (2), pp. 206– 226. DOI: 10.1016/j.jmps.2009.10.005. [15] Kim, N.H., Oh, C.S., Kim, Y.J., Yoon, Ke, B., Ma, Y.W. (2012). Hydrogen-assisted stress corrosion cracking simulation using the stress-modified fracture strain model, J. of Mechanical Science and Technology; 26 (8), pp. 2631-2638. DOI 10.1007/s12206-012-0642-x. [16] Bubnov, A.A., Bubnov, S.A. and Ovchinnikov, I. I. (2011). Modelling of stress state and fracture of thick-walled piping in hydrogen corrosion and heterogeneous thermal field, ed. Goryachaya Liniya –Telekom. Moscow, Russia. [17] Ovchinnikov, I.I. (2013). Models of deformation and delayed destruction of materials in a hydrogen-containing environment, Vestnik SSTU; 2 (70), pp. 178-183. (Russian) [18] Ovchinnikov, I.I. (2013). Modeling the behavior of a long hollow cylinder in a hydrogen-containing environment , the diffusion characteristics of which depend on the stressed state, Vestnik SSTU; 2 (70), pp. 183-191. (Russian) [19] ANSYS Element Reference. ANSYS Release 18.0. Documentation Inc., 2017. [20] ANSYS Theory Reference. ANSYS Release 18.0. Documentation Inc., 2017. [21] ANSYS Parametric Design Language Guide. ANSYS Release 18.0. Documentation Inc., 2017. [22] ANSYS Modeling and Meshing Guide. ANSYS Release 18.0. Documentation Inc., 2017.