Issue 39

J. Sobek et alii, Frattura ed Integrità Strutturale, 39 (2017) 129-142; DOI: 10.3221/IGF-ESIS.39.14 142 [14] Veselý, V., Sobek, J., Malíková, L., Frantík, P., Seitl, S., Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens, Frattura ed Integrità Strutturale, 25 (2013) 69–78. [15] Veselý, V., Frantík, P., Sobek, J., Malíková, L., Seitl, S., Multi-parameter crack tip stress state description for evaluation of nonlinear zone width in silicate composite specimens in component splitting/bending test geometry, Fatigue & Fracture of Engineering Materials & Structures, 38-2 (2014) 200–214. DOI: 10.1111/ffe.12170. [16] Karihaloo, B.L., Abdalla, H., Xiao, Q.Z., Coefficients of the crack tip asymptotic field for wedge splitting specimens, Engineering Fracture Mechanics, 70 (2003) 2407–2420. [17] Ayatollahi, M.R., Nejati, M., An over-deterministic method for calculation of coefficients of crack tip asymptotic field from finite element analysis, Fatigue & Fracture of Engineering Materials & Structures, 34 (2010) 159–176. [18] Sobek, J., Veselý, V., Šestáková, L., Accuracy of approximation of stress and displacement fields in cracked body for estimation of failure zone extent, Transactions of the VŠB–Technical University of Ostrava, Civil Engineering Series, XII-2 (2012) 1–10. DOI: 10.2478/v10160-012-0031-5. [19] Malíková, L., Multi-parameter fracture criteria for the estimation of crack propagation direction applied to a mixed- mode geometry, Engineering Fracture Mechanics, 143 (2015) 32–46. [20] Sobek, J., Pail, T., Veselý, V., Evaluation of crack tip Stress field using combination of advanced implementation of over-deterministic method and FE analysis, Key Engineering Materials, 627 (2015) 273–276. DOI: 10.4028 /www.scientific.net/KEM.627.273. [21] Veselý, V., Sobek, J., Tesař, D., Frantík, P., Pail, T., Seitl, S., Multi-parameter approximation of stress field in a cracked specimen using purpose-built Java applications, Frattura ed Integrità Strutturale, 33 (2015) 120–133. [22] Veselý, V., Sobek, J., Frantík, P., Seitl, S., Multi-parameter approximation of the stress field in a cracked body in the more distant surroundings of the crack tip, International Journal of Fatigue, 89 (2016) 20–35. DOI: 10.1016/j.ijfatigue.2016.02.016 [23] Malíková, L., Veselý, V., Seitl, S., Estimation of the crack propagation direction in a mixed-mode geometry via multi- parameter fracture criteria, Frattura ed Integrità Strutturale, 33 (2015) 25–32. [24] Malíková, L., Veselý, V., Significance of Higher-order Terms of the Williams Expansion for Plastic Zone Extent Estimation Demonstrated on a Mixed-mode Geometry, Procedia Materials Science, 3 (2014) 1383–1388. [25] Veselý, V., Frantík, P., An application for the fracture characterisation of quasi-brittle materials taking into account fracture process zone influence, Advances in Engineering Software, 72 (2014) 66–76. DOI: 10.1016/j.advengsoft.2013.06.004. [26] Linsbauer, H.N., Tscheg, E.K., Fracture energy determination of concrete with cube-shaped specimens, Zement und Beton, 31 (1986) 38–40. [27] ANSYS Documentation, Version 11.0, Swanson Analysis System, Inc., Houston, Pennsylvania, (2007). [28] Vargas, R., Neggers, J., Canto, R.B., Rodrigues, J.A., Hild, F., Analysis of wedge splitting test on refractory castable via integrated DIC, Journal of the European Ceramics Society, 36 (2016) 4309–4317.