PSI - Issue 23

Jiří Vala et al. / Procedia Structural Integrity 23 (2019) 328 – 333 Ji ří Vala, Vladislav Kozák / Structural Integrity Procedia 00 (2019) 000 – 000

333

6

Brighenti, R., Scorza, D., 2012. Numerical modelling of the fracture behaviour of brittle materials reinforced with unidirect ional or randomly distributed fibres. Mechanics of Materials 52, 12 – 27. Brighenti, R., Carpinteri, A., Spagnoli, A., Scorza, D., 2013. Cracking behaviour of fibre-reinforced cementitious composites: a comparison between a continuous and a discrete computational approach. Engineering Fracture Mechanics 103, 103 – 114. Buljak, V., Cocchetti, G., Maier, G., 2013. Calibration of brittle fracture models by sharp indenters and inverse analysis. International Journal of Fracture 184, 123 – 136. Cerrone, A., Wawrzynek, P., Nonn, A., Paulino, G. H., Ingraffea, A., 2014. Implementation and verification of the Park-Paulino-Roesler cohesive zone model in 3D. Engineering Fracture Mechanics 120, 26 – 42. Clayton, J. D., 2015. Differential Geometry and Kinematics of Continua. World Scientific, New Jersey. Duarte, C. A., Hamzeh, O. N., Liszka, T. J., Tworzydlo W. W., 2001. A generalized finite element method for the simulation of three-dimensional dynamic crack propagation. Computer Methods in Applied Mechanics and Engineering 190, 2227 – 2262. Edalat-Behbahani, A., Barros, J. A. O., Ventura-Gouveia, A., 2017. Three-dimensional plastic-damage multidirectional fixed smeared crack approach for modelling concrete structures. International Journal of Solids and Structures 115/116, 104 – 125. Eli áš, J., Vo ř echovsk ý, M., Sko č ek, J., Ba ž ant, Z. P., 2015. Stochastic discrete meso-scale simulations of concrete fracture: comparison to experimental data, ph{Engineering Fracture Mechanics 135, 1 – 16. Epstein, M., El ż anovski, M., 2007. Material Inhomogeneities and their Evolution. Springer, Berlin. Ferté, G., Massin, P., Moes, N., 2016. 3D crack propagation with cohesive elements in extended finite element method. Computer Methods in Applied Mechanics and Engineering 300, 347 – 374. Fries, T.-P., Belytschko, T., 2006. The intrinsic XFEM: a method for arbitrary discontinuities without additional unknowns. International Journal for Numerical Methods in Engineering 68, 1358 – 1385. Jir á sek, M. Damage and smeared crack models, 2011. In: Numerical Modeling of Concrete Cracking (Hofstetter, G., Meschke, G., eds). Springer: CISM International Centre for Mechanical Sciences 532, 1 – 49. Kaliske, M., Dal, H., Fleischhauer, R., Jenkel, C., Netzker, C., 2012. Characterization of fracture processes by continuum and discrete modelling. Computational Mechanics 50, 303 – -320. Khoei, A. R. Extended Finite Element Method: Theory and Applications, 2015. J. Wiley & Sons, Hoboken. Kom á rkov á, T., L áník, J. , Dvo řák, P., 2017. Influence of dispersed reinforcement on the physico-mechanical properties of the SFRC. Key Engineering Materials 755, 75 – 81. Kozák , V., Chlup, Z., 2011. Modelling of fibre-matrix interface of brittle matrix long fibre composite by application of cohesive zone method. Key Engineering Materials 465, 231 – 234. Koz á k, V., Chlup, Z., Pad ě lek P., Dlouh ý, I., 2017. Prediction of the traction separation law of ceramics using iterative finite element modelling. Solid State Phenomena 258, 186 – 189. Li, X., Chen, J., 2017. An extensive cohesive damage model for simulation arbitrary damage propagation in engineering materials. Computer Methods in Applied Mechanics and Engineering 315, 744 – 759. Li, X., Gao, W., Liu, W., 2019. A mesh objective continuum damage model for quasi-brittle crack modelling and finite element implementation. International Journal of Damage Mechanic 28, 24 pp., to appear. Mihai, I. C., Jefferson, A. D., 2017. A micromechanics based constitutive model for fibre reinforced cementitious composites. International Journal of Solids and Structures 110/111 (2017), 152 – 169. Morandotti, M., 2018. Structured deformations of continua: theory and applications. Continuum Mechanics Focusing on Singularities (CoMFoS) II – 16th Conference in Fukuoka (2016), Proceedings, Springer, 125 – 138. Munjiza, A., 2004. The Combined Finite-Discrete Element Method. John Wiley & Sons, Hoboken, 2004. Nair, S. Introduction to Continuum Mechanics. Cambridge University Press, Cambridge, 2009. Pike, M. G., Oskay, C., 2005. XFEM modeling of short microfiber reinforced composites with cohesive interfaces. Finite Elements in Analysis and Design 106, 16 – 31. Park, K., Paulino, G. H., Roesler, J. R., 2010. Cohesive fracture model for functionally graded fiber reinforced concrete. Cement and Concrete Research 40, 956 – 965. Roub íček, T., 2013. Nonlinear Partial Differential Equations with Applications. Birkh ä user, Basel. Sanjayan, J. G., Nazari, A., Pouraliakbar, H., 2015. FEA modelling of fracture toughness of steel-reinforced geopolymer composites. Materials and Design 76, 215 – 222. Shen, B., Stanciulescu, I., Paulino G. H., 2010. Inverse computation of cohesive fracture properties from displacement fields. Inverse Problems in Science and Engineering 18, 1103 – 1128. Steinhauser M. O., 2008. Computational Multiscale Modeling of Fluids and Solids. Springer, Berlin. Su, X. T., Yang, Z. J., Liu, G. H., 2010. Monte Carlo simulation of complex cohesive fracture in random heterogeneous quasi-brittle materials: a 3D study. International Journal of Solids and Structures 47, 2336 – 2345. Sumi, Y., 2014. Mathematical and Computational Analyses of Cracking Formation. Springer, Tokyo. Vala, J., 2015. Computational approaches to some inverse problems from engineering practice. Programs and Algorithms of Numerical Mathematics (PANM) – 17th Seminar in Doln í Maxov (2014), Proceedings, Institute of Mathematics AS CR, 15, 215 – 230. Vala, J., 2017. Existence and convergence questions in computational modelling of crack growth in brittle and quasi-brittle materials. Solid State Phenomena 258, 157 – 160. Vala, J., 2016. Structure identification of metal fibre reinforced cementitious composites. Algoritmy – 20th Conference on Scientific Computing in Podbansk é (2016), Proceedings, STU Bratislava, 244 – 253.