The test method for a bending beam made of glued laminated timber with combined reinforcement


Vol. 591 (11) 2021 / czwartek, 25 listopada, 2021

(InPolish)

Sobczak-Piąstka Justyna, S. Gomon Svyatoslav, Polishchuk Mykola, Homon Sviatoslav, Gomon Petro, Karavan Victor. 2021. The test method for a bending beam made of glued laminated timber with combined reinforcement. Volume 591. Issue 11. Pages 28-30. DOI: 10.15199/33.2021.11.04

Accepted for publication: 28.09.2021 r.

Structures of glued wood have significant advantages among others less mass, better resistance to the action of chemically aggressive environments, high fire resistance, aesthetic attractiveness, eco-friendliness. Despite that scientists are looking for new ways to improve the characteristics of such wood. In this article proposed a method of combined reinforcement of glued beams in which the steel bar reinforcement was arranged in the grooves of the compressed zone, and in the stretched zone reinforcement was carried out with the external composite tape made of carbon fiber. The aim of the article is the method of experimental research on the transverse bend of a construction of glued beams with combined reinforcement was developed.
  1. Gomon S., S. Gomon,V. Karavan, P. Gomon,A. Podhorecki. 2019. „Calculated cross-sectional model and stages of the stress-strain state of the wood element for transverse bending”. AIP Conference Proceedings, 020019, 2019; https://doi.org/10.1063/1.5091880.
  2.  Gomon S., A. Pavluk. 2017. „Study on working peculiarities of glue laminated beams under conditions of slanting bending”. Underwater technologies, 7, pp. 42 – 48. Doi: 10.26884/1707.1801.
  3. Gomon S., S. Gomon, V. Karavan, P. Gomon, J. Sobczak-Piastka. 2019. „Investigation of solid and glued wood on the effect of variables of low-cycle repeated loads. AIP Conference Proceedings 2077, 020020; https://doi. org/10.1063/1.5091881.
  4.  Gomon S., S. Gomon, V. Karavan, P. Gomon, Justyna Sobczak-Piastka. .2019. „Complete deflections of glued beams in the conditions of oblique bend for the effects of low cycle loads”. AIP Conference Proceedings 2077, 020021; https://doi. org/10.1063/1.5091882.
  5.  Pogoreltsev A. A., S. B. Turkovskyi, V. O. Stoianov. 2015. „High-modulus materials used in massive glued wood constructions”. Modern constructions from metal and wood, Collection Scientific Works, No 19, pp. 106-109.
  6. Sobczak-Piąstka Justyna, Svyatoslav Gomon,Mykola Polishchuk, Sviatoslav Homon, Petro Gomon, Victor Karavan. 2020. „Deformability of Glued Laminated Beams with Combined Reinforcement”. Buildings, 10-5, 92, 1- 9, e-ISSN: 2075-5309; DOI: 10.3390/buildings10050092.
  7.  Surmai M. I 2015. „Strength and deformability of rain-fed beams reinforced with fiberglass and basalt reinforcement”. Dis. Cand. Techn. Sciences: 05.23.01, National University Lviv Polytechnic, p. 185.
dr inż. Justyna Sobczak-Piąstka, Politechnika Bydgoska im. Jana i Jędrzeja Śniadeckich; Wydział Budownictwa, Architektury i Inżynierii Środowiska ORCID: 0000-0002-5052-9362
prof. dr inż. Svyatoslav S. Gomon, Narodowy Uniwersytet Gospodarki Wodnej i Środowiska; Instytut Budownictwa i Architektury, Ukraina ORCID: 0000-0003-2080-5650
dr inż. Mykola Polishchuk, Narodowy Uniwersytet Gospodarki Wodnej i Środowiska; Instytut Budownictwa i Architektury, Ukraina ORCID: 0000-0002-1218-5925
dr inż. Sviatoslav Homon, Narodowy Uniwersytet Gospodarki Wodnej i Środowiska; Instytut Budownictwa i Architektury, Ukraina
dr inż. Petro Gomon, Narodowy Uniwersytet Gospodarki Wodnej i Środowiska; Instytut Budownictwa i Architektury, Ukraina ORCID: 0000-0002-5312-0351
dr inż. Victor Karavan, Narodowy Uniwersytet Gospodarki Wodnej i Środowiska; Instytut Budownictwa i Architektury, Ukraina ORCID: 0000-0002-8261-692X

dr inż. Justyna Sobczak-Piąstka, Politechnika Bydgoska im. Jana i Jędrzeja Śniadeckich; Wydział Budownictwa, Architektury i Inżynierii Środowiska ORCID: 0000-0002-5052-9362

justynas@pbs.edu.pl

Full paper is available at Publisher house SIGMA-NOT Sp. z o.o. webpage

DOI: 10.15199/33.2021.11.04