PSI - Issue 20

Victor Petrov et al. / Procedia Structural Integrity 20 (2019) 87–92 Victor Petrov et al. / Structural Integrity Procedia 00 (2019) 000–000

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Acknowledgements

This work has been supported by the Russian Foundation for Basic Research (Project 18-48-140015) and by the Program for Basic Research of State Academies of Science (Project III.28.1.1.) with the using of the equipment of the Center for Collective Use of Federal Research Center “Yakut Scientific Center”. References Ayatollahi, M.R., Razavi, S.M.J., Moghaddam, M. Rashidi, Berto, F., 2015. Mode I fracture analysis of polymethylmetacrylate using modiied energy-based models . Fizicheskaya mezomekhanika, 18(5), 53–62. Bartenev G.M., 1984. Prochnost' i mekhanizm razrusheniya polimerov. Khimiya, Moscow, pp. 280. (in Russian) Bratov, V.A., 2009. Numerical models of dynamical fracture. Computational Continuum Mechanics 3(2), 5–16. (in Russian) Gol'dshteyn, R.V., 2014. Scale Interaction and Ordering Effects at Fracture. Procedia IUTAM 10, 180-192. Gol'dshteyn, R.V., Osipenko, N.M., 1993. Structures and processes of for- mation fracture. Modeling of Seismic Process Development and Earth- quakes Prognosis 1, Nauka, Moscow, 21-37. (in Russian) Golovin, Yu.I., Tyurin, A.I., Khlebnikov, V.V., 2005. Effect of the conditions of dynamic nanoindentation on the strain-rate sensitivity of hardness for solids with different structures. Technical Physics 50(4), 479-483. Ha, Y.D., Bobaru, F., 2010. Studies of dynamic crack prop-agation and crack branching with peridynamics. International Journal of Fracture 162. 229–244. Kireenko, O.F., Leksovskiy, A.M., Regel', V.R., 1972. Fractographic method for determining the conditions of transition to brittle fracture in polymers. Strength of materials 4 (7), 831–834. Lepov, V., Ivanova, A., Achikasova,V., Lepova, K., 2007. Modeling of the damage accumulation and fracture: structural-statistical aspects. Key Engineering Materials 345-346(I), 809-812. Lepov, V., Grigoriev, A., Bisong, M., Lepova, K., 2017. Brittle Fracture Modeling for Steel Structures operated in the Extreme. Structural Integrity Procedia 5, 777-784. Md Raziun Bin Mamtaz, 2016. Measurement of Fracture Toughness of Polymethyl Methacrylate (PMMA). Technical Report. Department of Mechanical Engineering, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, pp. 20. Petrov, V.N., Lepov, V.V., 2011. Kriterii otsenki treshchinostoykosti konstruktsionnykh materialov. Metallurgiya mashinostroeniya 6, 12–14. Petrov, V.N., Lepov, V.V., Semenov, Kh.N., Larionov, V.P., 2002. Energy criterion of the polymeric materials fracture in case of combine statical and dynamical loading . Physical mesomechanics 4(5), 67–72. Stukhlyak, P.D., Buketov A.V., Panin, S.V., Marushchak, P.O., Moroz, K.M., Poltaranin, M.A., Vukherer, T., Kornienko, L.A., Lyukshin, B.A., 2014. Structural levels of failure of the epoxy composite materials under the shock loading. Physical mesomechanics 17(2), 65–83.