PSI - Issue 59

Serhii Filipchuk et al. / Procedia Structural Integrity 59 (2024) 588–594 Serhii Filipchuk / Structural Integrity Procedia 00 (2019) 000 – 000

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5. Conclusions The test results with dynamic action with a firing pin of up to 30 mm of experimental protective steel-fiber reinforced concrete slabs supported the possibility and expediency of application for their production of high-strength fast-hardening. PC Lira can be used to a limited extent for modeling shock effects on reinforced concrete structures by applying impulse loads, as it does not have the ability to use the shock interaction of different bodies with the penetration of one into another. References Babich Y, Filipchuk, S, Karavan V., Sobczak-Piastka J., 2019. General requirements for materials of fortification protective structures. AIP Conference Proceedingsthis 2077, 020004. Babich Y, Filipchuk, S, Karavan V., Sobczak-Piastka J., 2019. Research of basic mechanical and deformative properties of high-strength fast hardening concretes. AIP Conference Proceedings 2077, 020003. Babych, Y., Filipchuk, S., Fenko, O., 2018. Mathematical modeling of the resistance of pulling out steel bars from high strength concrete. International Journal of Engineering and Technology (UAE) 7 (3.2), 516-521. Bosak, A., Matushkin, D., Dubovyk, V., Homon, S., Kulakovskyi, L., 2021. Determination of the concepts of building a solar power forecasting model. Scientific Horizons 24(10), 9-16. Chapiuk, O., Oreshkin, D., Hryshkova, A., Pakholiuk, O., Avramenko, Y., 2023. Adhesion of the metal and composite fiberglass rebar with the heavyweight concrete. Lecture Notes in Civil Engineering 299, 47 – 60. DSTU B V.2.7 – 214:2009. Budivelni materialy. Betony. Metody vyznachennia mitsnosti za kontrolnymy zrazkamy. Dvorkin, L., Bordiuzhenko, O., Zhitkovsky, V., Gomon, S., Homon, S., 2021. Mechanical properties and design of concrete with hybrid steel basalt fiber. E3S Web of Conferences 264, 02030. Dvork і n L.J., Babich E.M., ZHitkovs'kij V.V., Bordyuzhenko O.M., F і l і pchuk S.V.,Kochkar'ov D.V., Kovalik І. V., Koval'chuk T.V., Skripnik M.M., 2017. Visokom і cn і shvidkotverdnuch і betoni ta f і bro betony. R і vne: NUVGP, 331. Gomon, P., Gomon, S., Pavluk, A., Homon, S., Chapiuk, O., Melnyk, Yu., 2023. Innovative method for calculating deflections of wooden beams based on the moment-curvature graph. Procedia Structural Integrity 48, 195-200. Gomon, S., Gomon, P., Korniychuck, O., Homon, S., Dovbenko, T., Kulakovskyi, L., Boyarska, I., 2022. Fundamentals of calculation of elements from solid and glued timber with repeated oblique transverse bending, taking into account the criterion of deformation. Acta Facultatis Xylologiae Zvolen 64(2), 37-47. Gomon, S.S., Gomon, P., Homon, S., Polishchuk, M., Dovbenko, T., Kulakovskyi, L., 2022. Improving the strength of bending elements of glued wood. Procedia Structural Integrity 36, 217-222. Filipchuk, S., Karavan, V., Makarenko, R., Nalepa, O., Chapiuk, O., 2023. Study of reinforcement adhesion to concrete under static and dynamic loads. AIP Conference Proceedings 2949(1), 020007. Sobczak-Piastka J., Babich Y, Filipchuk, S, Karavan V., Nalepa, O., 2020. Research of deformative properties of concrete taking into account the descending branch of deformation. IOP Conference Series: Materials Science and Engineering 960(3), 032057. Sobczak- Piąstka, J. , Babych, V., Karavan, V., Polianovska, O., Filipchuk, S., Shvets, I., 2023. Increase in crack resistance of bending reinforced concrete elements by local dispersal reinforcement of the tensile zone. AIP Conference Proceedings 2928(1), 080006. Sobczak-Piastka, J., Gomon, S.S., Polishchuk, M., Homon, S., Gomon, P., Karavan, V., 2020. Deformability of glued laminated beams with combined reinforcement. Buildings 10(5), 92.