PSI - Issue 59

Svyatoslav Gomon et al. / Procedia Structural Integrity 59 (2024) 559–565 Svyatoslav Gomon et al./ Structural Integrity Procedia 00 (2019) 000 – 000

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Iskhakov, I., Frolov, I., Ribakov, Y., 2022. Experimental verification of theoretical stress-strain model for compressed concrete considering post peak stage. Materials 15(17), 6064. Konkol, J. Fracture toughness and fracture surface morphology of concretes modified with selected additives of pozzolanic properties. Buildings, 2019, 9(8), 174. Landis, E.N., Vasic, S., Davids, W.G., Parrod, P., 2002. Coupled experiments and simulations of microstructural damage in wood. Experimental Mechanics 42, 389 – 394. Livas , С., Ekevad , М., Öhman , М., 2022. Experimental analysis of passively and actively reinforced glued -laminated timber with focus on ductility. Wood Material Science & Engineering 17(2), 129-137. Madsen, B., 1975. Duration of load test for wood in tension perpendicular to grain. Forest Products Journal 25(8), 48 – 54. NDS. National design specification for wood construction, 2018. American Forest and Paper Association. Patton-Mallory, M., Cramer, S., 1987. Fracture mechanics: a tool for predicting wood component strength. Forest Products Journal 37 (7/8), 39 – 47. Pavluk, A., Gomon, S., Ziatiuk Y., Gomon, P., Homon, S., Kulakovskyi, L., Iasnii, V., Yasniy, O., Imbirovych, N., 2023. Stiiffness of solid wood beams under direct and oblique bending conditions. Acta Facultatis Xylologiae Zvolen 65(2), 109-121. Romaniuk, V., Supruniuk, V., 2021. Influence of Flexibility of Bolted Joints on Rigity of the Hingeless Frame. Lecture Notes in Civil Engineering 100, 371 – 377. 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. Sobczak-Piastka, J., Pavluk, A., Gomon, S.S., Gomon, P., Homon, S., Lynnyk, I., 2023. Changing the position of the neutral line of beams made of glued wood in conditions of oblique bending. AIP Conference Proceedings 2928, 080007. Solodkyy, S., Markiv, T., Sobol, K., Hunyak, O., 2017. Fracture properties of high-strength concrete obtained by direct modification of structure. MATEC Web of Conferences 116, 01016. Wang, J.,Brian Uy, B., Thai, H.T., Li, D., 2018. Behaviour and design of demountable beam-to-column composite bolted joints with extended end-plates. Journal of Constructional Steel Research 144, 231-235. Yasniy, P., Homon, S., Iasnii, V, Gomon, S.S., Gomon, P., Savitskiy, V., 2022. Strength properties of chemically modified solid woods. Procedia Structural Integrity 36, 211-216. Zakic, B.D., 1974. Inelastic bending of wood beams. Journal of the Structural Division 99(10), 2079-2092. Zhao, K., Wei, Y., Chen, S., Hang C., Zhao, K., 2020. Experimental investigation of the long-term behavior of reconstituted bamboo beams with various loading levels. Journal of Building Engineering 36, 102107. Zhou, A., Bian, Y., Shen, Y., Huang, D., Zhou, M., 2018. Inelastic bending performances of laminated bamboo beams: experimental investigation and analytical study. BioResources, 13 (1), 131-146.