PSI - Issue 32

L.V. Stepanova et al. / Procedia Structural Integrity 32 (2021) 261–272 Author name / StructuralIntegrity Procedia 00 (2019) 000–000

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Dehaghani, M.Z., Mashhadzadeh, A.H., Salmankhani, A., Karami, Z., Habibzaden, S., Ganjali, M.R., Saeb, M.R.,2020. Fracture toughness and crack propagation behavior of nanoscale beryllium oxide graphene-like structures: A molecular dynamics simulation analysis. Engineering fracture Mechanics 235, 107194. Hello, G., 2018. Derivation of complete crack-tip stress expansions from Westergaard-Sanford solutions. International Journal of Solids and Structures, 144-145, 265-275. Gallo, P., 2020. Some Considerations on Stress Intensity Factor at Atomic Scale. In: Gdoutos E., Konsta-Gdoutos M. (eds) Proceedings of the Third International Conference on Theoretical, Applied and Experimental Mechanics. ICTAEM 2020. Structural Integrity, 16. Karihaloo, B.L., Xiao, Q.Z., 2001. Accurate determination of the coefficients of elastic crack tip asymptotic field by a hybrid crack element with p-adaptivity. Eng. Fract. Mechanics 68(15), 1609-1630. Mai, N.T., Choi, S.T., 2018. Atomic-scale mutual integrals for mixed-mode fracture: Abnormal fracture toughness of grain boundaries in graphene. International Journal of Solids and Structures 138, 205-216. Roy, S., Roy A., 2019. A computational investigation of length-scale effects in the fracture behaviour of a graphene sheet using the atomistic J integral. Engineering Fracture Mechanics 207, 165-180. Singh, D., Sharma, P., Parashar, A., 2019. Atomistic simulations to study crack tip behavior in single crystal of bcc niobium and hcp zirconium. Current Applied Physics, 19, 37-43. Stepanova, L., Bronnikov, S. A., 2020.Computational study of the mixed-mode crack behavior by molecular dynamics method and the multi Parameter crack field description of classical fracture mechanics. Theoretical and Applied Fracture Mechanics, 109, 102691. Tsai, J.-L., Tzeng, S.-H., Tzou, Y.-J., 2010. Characterizing the fracture parameters of a graphene sheet using atomistic simulation and continuum mechanics. International Journal of Solids and Structures 47, 503-509. Wilson, M.A., Grutzik, S.J., Chandross, M. 2019. Continuum stress intensity factors from atomistic fracture simulations. Comput. Methods Appl. Mech. Engrg. 354, 732-749.