Environmentally safe installation for determining the Fire resistance of coatings and fire resistance tests оf small fragments building structures

Veselivskyi, R.; Yakovchuk, R.; Petrovskyi, V.; Havrys, A.; Smolyak, D.; Kahitin, O.

Please use this identifier to cite or link to this item: https://sci.ldubgd.edu.ua/jspui/handle/123456789/13680

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DC Field	Value	Language
dc.contributor.author	Veselivskyi, R.	-
dc.contributor.author	Yakovchuk, R.	-
dc.contributor.author	Petrovskyi, V.	-
dc.contributor.author	Havrys, A.	-
dc.contributor.author	Smolyak, D.	-
dc.contributor.author	Kahitin, O.	-
dc.date.accessioned	2024-07-09T11:58:25Z	-
dc.date.available	2024-07-09T11:58:25Z	-
dc.date.issued	2024	-
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Kyiv: State Enterprise "Ukrainian Research and Training Center for Standardization, Certification and Quality" [in Ukrainian]. 5. Vyprobuvannia nesuchykh budivelnykh konstruktsii na vohnestiikist. Chastyna 2. Perekryttia ta pokryttia [Testing of load-bearing building structures for fire resistance. Part 2. Floors and coatings]. (2023). DSTU EN 1365-2:2023 (EN 1365-2:2014, IDT), from 1st May 2024. Kyiv: State Enterprise "Ukrainian Research and Training Center for Standardization, Certification and Quality" [in Ukrainian]. 6. Vyprobuvannia nesuchykh budivelnykh konstruktsii na vohnestiikist. Chastyna 3. Balky [Testing of load-bearing building structures for fire resistance. Part 3. Beams]. (2023). DSTU EN 1365-3:2023 (EN 1365-3:1999, IDT), from 1st May 2024. Kyiv: State Enterprise "Ukrainian Research and Training Center for Standardization, Certification and Quality" [in Ukrainian]. 7. Vyprobuvannia nesuchykh budivelnykh konstruktsii na vohnestiikist. Chastyna 4. Kolony [Testing of load-bearing building structures for fire resistance. Part 4. Columns]. (2023). DSTU EN 1365-4:2023 (EN 1365-4:1999, IDT), from 1st May 2024. Kyiv: State Enterprise "Ukrainian Research and Training Center for Standardization, Certification and Quality" [in Ukrainian]. 8. Vyprobuvannia na vohnestiikist. Elementy budivelnykh konstruktsii. Chastyna 1. Zahalni vymohy [Fire resistance tests. Elements of building structures. Part 1: General requirements]. (2023). DSTU ISO 834-1:2023 (ISO 834-1:1999, IDT), from 17st November 2023. Kyiv: State Enterprise "Ukrainian Research and Training Center for Standardization, Certification and Quality" [in English]. 9. Vyprobuvannia na vohnestiikist. Chastyna 1. Zahalni vymohy [Fire resistance tests. Part 1: General requirements]. (2023). ДСТУ EN 1363-1:2023 (EN 1363-1:2020, IDT), from 1st March 2024. Kyiv: State Enterprise "Ukrainian Research and Training Center for Standardization, Certification and Quality" [in Ukrainian]. 10. 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Pich dlya teplofizychnykh vyprobuvan malohabarytnykh frahmentiv budivelnykh konstruktsiy ta okremykh vuzliv yikh stykovykh zyednan (Furnace for thermophysical tests of small fragments of building structures and individual nodes of their butt joints). Pat. 17160 Ukrayina, MPK(2006) F23M5/00. / B. H. Demchyna, V. S. Fitsyk, A. P. Polovko, A. B. Pelekh // zayavl. 20.03.2006r., opubl. 15.09.2006. – Byul. № 9. 17. Veselivskyy R. B. (2012) Obgruntuvannia umov zastosuvannia vertykalnykh bahatosharovykh ohorodzhuvalnykh konstruktsii budivel i sporud z urakhuvanniam yikh vohnestiikosti [Substantiation of application of vertical multilayer envelope structures of buildings and constructions according to their fire-resistance]. (Candidate’s thesis). Lviv State University of Life Safety. Lviv [in Ukrainian]. 18. Veselivskyi R. B., Vasylenko O. O., Yakovchuk R. S. (2015) Eksperymentalne doslidzhennia vohnestiikosti ohorodzhuvalnykh konstruktsii z kombinovanym napovniuvachem [Experimental research of fire resistance of the enclosing structures with combined filling]. Pozhezhna bezpeka, 26, 19–25 [in Ukrainian]. 19. Veselivskyi R. B. (2021) Obgruntuvannia metodu pryvedennia mezhi vohnestiikosti otrymanoi pid chas vohnevykh vyprobuvan do mezhi vohnestiikosti za standartnym temperaturnym rezhymom pozhezhi [Justification of the method of matching of fire resistance limit obtained during of the fire test to the fire resistance limit according to the standard temperature mode]. Scientific bulletin: Сivil protection and fire safety, 1(11), 56–63, [in Ukrainian]. https://doi.org/10.33269/nvcz.2021.1(11).56-63. 20. Veselivskyi, R., Yakovchuk, R., Vasylenko, O., Polovko A. (2019) Vohnestiikist ohorodzhuvalnykh konstruktsii bludivel ta sporud [Fire resistance of enclosing structures of buildings and structures]: monograph. Lviv, LSU LS, 144 p. [in Ukrainian]. 21. Report of the research work (2017) «Provesty doslidzhennia vohnezakhysnoi zdatnosti vohnezakhysnykh pokryttiv ta rozrobyty metodyku poperednoi otsinky yikh efektyvnosti («efektyvnist pokryttiv»)» [Conduct a study of the fire protection capability of fireproof coatings and develop a methodology for preliminary assessment of their effectiveness ("coating effectiveness")], performers: Borys O. P., Dobrostan O. V., Novak S. V., Samchenko T. V., Ratushnyi O. V., Kurkov D. A., Dolishnii Yu. V., Korniienko O. V., state registration number № 011611008038. Kyiv: UkrRICZ – 123 p. [in Ukrainian]. 22. Andronov V. A., Rybka Ye. О. (2009) Labratorna ustanovka dlia vyznachennia vohnezakhysnykh vlastyvostei reaktyvnykh vohnezakhysnykh pokryttiv dlia metalevykh konstruktsii [Laboratory installation for definition of fireproof properties of reactive fireproof coverings for metal constructions]. Fire safety issues, 26, 3–11 [in Ukrainian]. 23. Perehin А., Nuianzin О. (2021) Etapy stvorennia prototypu vohnevoi ustanovky dlia vyznachennia temperaturnykh rozpodiliv malohabarytnykh frahmentiv zalizobetonnykh konstruktsii [Stages of creating a prototype of a fire installation for determination of temperature distributions of small figures of reinforced concrete structures]. Emergency situations: prevention and response, 5(2), 75–82 [in Ukrainian]. 24. Nuianzin, O., Pozdieiev, S., Sidnei, S., Kostenko, T., Borysova, A., Samchenko, T. (2023). Increasing the Efficiency and Environmental Friendliness of Fire Resistance Assessment Tools for Load-Bearing Reinforced Concrete Building Structures. Ecological Engineering & Environmental Technology, 24(4), 138-146. https://doi.org/10.12912/27197050/161923/. 25. Pozdieiev, S., Nizhnyk, V., Feshchuk, Y., Nekora, V., Nuianzin, O., & Shnal, T. (2021). Investigation of the influence of the configuration of the fire furnace chamber on the temperature regime during the implementation of tests for fire resistance. Eastern-European Journal of Enterprise Technologies, 4(1(112), 34–40. https://doi.org/10.15587/1729-4061.2021.239235. 26. Binmeng Chen, Honggang Zhu, Bo Li, Manlung Sham, Zongjin Li, Study on the fire resistance performance of cementitious composites containing recycled glass cullets (RGCs), Construction and Building Materials, Volume 242, 2020, 117992, ISSN 0950-0618, https://doi.org/10.1016/j.conbuildmat.2019.117992. 27. BS 476-22:1987 Fire tests on building materials and structures Method for determination of the fire resistance of non-loadbearing elements of construction.	en_US
dc.identifier.uri	https://sci.ldubgd.edu.ua/jspui/handle/123456789/13680	-
dc.description.abstract	The work substantiates the parameters of the test installation, the principle of which is to heat the inner space of the furnace with the help of electric heating elements. The use of electric heaters, unlike liquid fuel (diesel fuel, fuel oil, gas), does not harm the environment, the environment, and ensures the environmental friendliness of building construction tests. The designed and created installation makes it possible to increase or decrease the temperature on the heating surface of the test sample, not only with the help of the heating temperature regulator, but also in manual mode by moving the test sample closer or further away from the radiation panel along the guides. According to the results of experimental studies, it was established that the chamber of the installation warms up evenly and according to the standard fire temperature regime. The conducted studies confirm the necessary reproducibility of experimental results. An installation with a test chamber size of 500×500×500 mm was created, which makes it possible to investigate the fire-resistant efficiency (ability) of fire-resistant coatings and to preliminarily estimate the fire resistance limit of small-sized fragments of building structures.	en_US
dc.language.iso	en	en_US
dc.publisher	Veselivskyi R.B., Yakovchuk R.S., Petrovsky V.L., Havrys А.P., Smolyak .V., Kahitin О.І. Environmentally safe installation for determining the fire resistance of coatings and fire resistance tests of small fragments building structures / Strength of Materials and Theory of Structures: Scientific and-technical collected articles. – K.: KNUBA, 2024. – Issue 112. – P. 248-257. DOI: https://doi.org/10.32347/2410-2547.2024.112.248-257	en_US
dc.subject	installation for fire resistance tests	en_US
dc.subject	standard temperature regime	en_US
dc.subject	fire protection efficiency	en_US
dc.subject	building structure	en_US
dc.title	Environmentally safe installation for determining the Fire resistance of coatings and fire resistance tests оf small fragments building structures	en_US
dc.title.alternative	Екологічно безпечна установка для визначення вогнезахисної здатності(ефективності) вогнезахисних покриттів та випробувань на вогнестійкість малогабаратних фрагментних будівельних конструкцій	en_US
dc.type	Article	en_US
Appears in Collections:	2024

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