PSI - Issue 17

M.P. Tretyakov et al. / Procedia Structural Integrity 17 (2019) 865–871 Author name / Structural Integrity Procedia 00 (2019) 000 – 000

871

7

deformation of composites, which can lead to a decrease in the survivability of structural elements made of the considered materials.

Acknowledgements

The work was carried out with support of the Russian Science Foundation (Project 16-19-00069) in the Perm National Research Polytechnic University.

References

Lobanov, D.S., Slovikov, S.V., 2018. Mechanical behavior of a unidirectional basalt-fiber-reinforced plastic under thermomechanical loadings. Mechanics of Composite Materials 54 (3), 351-358. Vallons, K., Adolphs, G., Lucas P., Lomov, S.V., Verpoest, I., 2014. The influence of the stitching pattern on the internal geometry, quasi-static and fatigue mechanical properties of glass fibre non-crimp fabric composites. Composites Part A: Applied Science and Manufacturing 56, 272 279. Lobanov, D.S., Babushkin, A.V., Luzenin, A.Yu., 2018. Effect of increased temperatures on the deformation and strength characteristics of a GFRP based on a fabric of volumetric weave. Mechanics of Composite Materials 54 (5), 655-664. Lobanov, D. S., Vildeman, V. E., Babin, A. D., Grinev, M.A., 2015. Experimental research into the effect of external actions and polluting environments on the serviceablity of fiber-reinforced polymer composite materials. Mechanics of Composite Materials 51 (1), 69-79. Lobanov, D.S., Babushkin, A.V., 2017. Experimental studies of the high temperature influence on strength and deformation properties of combined glass organoplastics. PNRPU Mechanics Bulletin 1, 104 — 117. Dattoma, V., Giancane, S., 2013. Evaluation of energy of fatigue damage into GFRC through digital image correlation and thermography. Composites Part B: Engineering 47, 283‒289. Pohoryles, D.A., Melo, J., Rossetto, T., Fabian, M., McCague, C., Stavrianaki, K., Lishman, B., Sargeant, B., 2017. Use of DIC and AE for Monitoring Effective Strain and Debonding in FRP and FRCM-Retrofitted RC Beams. Journal of Composites for Construction 21 (1). Lobanov, D.S., Wildemann, V.E., Spaskova, E.M., Chikhachev, A.I., 2015. Experimental investigation of defects influence on composites sandwich panels strength using digital image correlation and infrared thermography methods. PNRPU Mechanics Bulletin 4, 159-170. Vildeman, V.E., Sokolkin, Yu.V., Tashkinov, А.А., 1997. Mechanics of inelastic deformation and fracture of composite materials, Moscow, Nauka. pp. 288. Vildeman, V.E., 2008. Mechanics of postcritical deformation and questions of strength analysis methodology, International Journal for Computational Civil and Structural Engineering 4 (2), 43. Bazant, Z.P., Di Luizo, G., 2004. Nonlocal microplane model with strain-softening yield limits, Intern. J. of Solids and Struct 41, 7209 – 7240. Tretyakov, M.P., Wildemann, V.E., Lomakin, E.V., 2016. Failure of materials on the postcritical deformation stage at different types of the stress strain state, Procedia Structural Integrity 2, 3721-3726. Tretyakov, M.P., Tretyakova, T.V., Wildemann, V.E., 2018. Regularities of mechanical behavior of steel 40Cr during the postcritical deformation of specimens in condition of necking effect at tension 43, 145-153. Vildeman, V.E., Lomakin, E.V., Tretyakova, T.V., Tretyakov, M.P, 2016. Development of inhomogeneous fields under postcritical deformation of steel specimens in extension, Mechanics of Solids 51(5), 612-618.