Pozdieiev S. V., Nuianzin O. M., Sidnei S. O., Novhorodchenko A. Y., Borsuk O. V. Research heating of the steel i-beam rods with mineral wool coating under the conditions of standard temperature fire regime
- Details
- Parent Category: Geo-Technical Mechanics, 2020
- Category: Geo-Technical Mechanics, 2020, № 152
Geoteh. meh. 2020, 152, 116-126
https://doi.org/10.15407/geotm2020.152.116
RESEARCH HEATING OF THE STEEL I-BEAM RODS WITH MINERAL WOOL COATING UNDER THE CONDITIONS OF STANDARD TEMPERATURE FIRE REGIME1Pozdieiev S. V., 1Nuianzin O. M.,1SidneiS. O., 1Novhorodchenko A. Y., 1Borsuk O. V.
1Cherkassy Institute of Fire Safety named after Chernobyl Heroes NUCP of Ukraine
UDC 669.046/.049:622.822
Language: Ukrainian
Annotation.
In the article, experimental fire tests on establishing maximum fire resistance of the steel columns with fire-retardant mineral wool covering are analyzed. The scientific novelty of this study are the new method developed for manufacturing and shaping samples of the steel columns with fire-retardant mineral wool covering, and the method developed for conducting fire tests on establishing patterns of dependence of the moment when steel columns with the fire-retardant cladding lose their bearing capacity down to the limit. The subject of the study was an influence of design parameters of the fire-retardant cladding on the results of the estimated fire resistance of the steel columns under the influence of the standard fire temperature mode. The main task of the research described in this article was to determine a moment of the peak critical temperature of fire-retardant steel structure depending on the thickness of the mineral wool covering. The test results of samples of steel columns with different thickness of fire-retardant cladding based on mineral wool covering are also described in the article; the tests were carried out in accordance with the developed methodology of experimental studies. The repeatability of the time indicators of the bearing capacity loss by the tested samples of steel columns with fire-retardant cladding depending on the duration of the sample exposure to the action of the fire standard temperature is shown. The obtained research results will allow to create a mathematical model for predicting a dependence of the moment when a steel structure reaches its critical temperature depending on the thickness of the fire-retardant cladding. The constructed mathematical model can be considered as a scientific basis for the creation of new engineering methods of calculation for assessing fire resistance of the steel structures with fire-retardant mineral wool covering. These engineering and calculation methods allow improving the regulatory acts for designing of the fire-resistant steel structures.
Keywords:
steel columns, fire-retardant cladding, mineral wool covering, standard temperature regime, mathematical model
References
1. Pozdeev S., Nuianzin O., Sidnei S. and Shchipets S. (2017), “Computational study of bearing walls fire resistance tests efficiency using different combustion furnaces configurations”, MATEC Web of Conferences, 6th International Scientific Conference “Reliability and Durability of Railway Transport Engineering Structures and Buildings” (Transbud-2017), 116, art. no. 02027.
https://doi.org/10.1051/matecconf/201711602027
2. Pozdeev S., Nekora O. and Slovynsky V. (2017), “The research of bearing capacity of reinforced concrete beam with use combined experimental-computational method”, MATEC Web of Conferences, 6th International Scientific Conference “Reliability and Durability of Railway Transport Engineering Structures and Buildings” (Transbud-2017), 116, art. no. 02024.
https://doi.org/10.1051/matecconf/201711602024
3. Feshchuk Yu. L., Pozdeev S. V., Nizhnik V. V. and Novgorodchenko A. Yu. (2018), “ Method of interpolation of temperature fields in the section of fragments of wooden columns with fire retardant cladding”, VestnikKokshetauskogotekhnicheskogoinstitutekomitetapochrezvychaynymsituatsiamMVDRespublikiKazakhstan, no. 3 (31), pp.. 64 -73.
4. DSTU B V.1.1-4-98 Budivelni konstruktsii. Metody vyprobuvan na vohnestiikist. Zahalni vymohy. Pozhezhna bezpeka. (ISO 834: 1975) [DSTU B V.1.1-4-98 Building constructions. Fire resistance test methods. General requirements. Fire safety (ISO 834: 1975), Ukrarkhbudinform, Kyiv, UA.
5. DSTU-N B EN 1993-1-2:2012 Proektuvannia stalevykh konstruktsii. Chastyna 1-2. Zahalni polozhennia. Rozrakhunok konstruktsii na vohnestiikist [DSTU-N B EN 1993-1-2:2012 Design of steel structures. Part 1-2. Terms. Calculation of structures for fire resistance], Ukrarkhbudinform, Kyiv, UA.
6. DSTU B V.1.1-17:2007 Vohnezakhysni pokryttia dlia budivelnykh nesuchykh konstruktsii. Metod vyznachennia vohnezakhysnoi zdatnosti. (ENV 13381-4:2002) [DSTU B V.1.1-17:2007 Fire-retardant coatings for building load-bearing structures. Method for determining the fire retardant ability. (ENV 13381-4:2002)], Ukrarkhbudinform, Kyiv, UA.
7. EN 13501-1:2002 Fire classification of construction products and building elements. Part 1.2, European Committee for Standardization, Brussels, Belgia.
8. Hicks Ch. (2013), Osnovnye printsipy planirovaniya eksperimenta [Fundamental Concepts In The Design of Experiments], Moscow, RU.
About the authors
Pozdieiev Serhii Valerievich,Doctor of Technical Sciences (D.Sc.), Professor, Сhief Researcher of Cherkasy Institute of Fire Safety named after Chernobyl Heroes of National University of Civil Protection of Ukraine. Cherkasy, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Nuianzin OleksandrMikhaylovich, Candidate of Technical Sciences (Ph.D.), Associate Professor, Head of the Department of Organization of Scientific Activity of Cherkasy Institute of Fire Safety named after Chernobyl Heroes of National University of Civil Protection of Ukraine, Cherkasy, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Sidnei Stanislav Alexandrovich Candidate of Technical Sciences (Ph.D.), Associate Professor in the Department of Construction and Occupational Safety of Cherkasy Institute of Fire Safety named after Chernobyl Heroes of National University of Civil Protection of Ukraine, Cherkasy, Ukraine, sidney-1980@ukr.net.
Novhorodchenko Alina Yurievna, Adjunct, Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Protection of Ukraine, Cherkasy, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Borsuk Olena Valentinovna, Master of Science, Senior lecturer-methodologist of the Faculty of Fire Safety, Cherkasy Institute of Fire Safety named after Chernobyl Heroes of National University of Civil Protection of Ukraine, Cherkassy, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.