Author:
Larisa Stepanova,Sergey Bronnikov
Subject
General Engineering,Energy Engineering and Power Technology
Reference17 articles.
1. Belova, O., Stepanova, L., 2018. Estimation of crack propagation direction angle under mixed mode loading in linear elastic isotropic materials by generalized fracture mechanics criteria and atomistic modeling (molecular dynamics method). Journal of Physics: Conference Series 1096, 012060.
2. Fracture mechanics. Inverse problems and solutions;Bui,2006
3. Chandra, S., Kumar, N.N., Samal, M.K., Chavan, V.M., Patel, R.J., 2016. Molecular dynamics simulations of crack growth behavior in Al in the presence of vacancies. Computational Materials Science 117, 518.
4. Effects of surface crack on the mechanical properties of Silica: A molecular dynamics simulation study;Chowdhury;Engineering Fracture Mechanics,2019
5. Molecular dynamics simulations of the tensile responses and fracture mechanisms of Ti2AlN/TiAl composite;Han;Theoretical and Applied Fracture Mechanics,2019
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