Technology of obtaining intumescent fire retardant mastics

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Authors:

V.V.Bachynckyi, Cand. Sc. (Tech.), Senior Research Fellow, оrcid.org/0000-0003-2187-8616, Odesa State Academy of Civil Engineering and Architecture, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

N.R.Antoniuk, Cand. Sc. (Tech.), Assoc. Prof., оrcid.org/0000‑0003‑1730‑0723, Odesa State Academy of Civil Engineering and Architecture, Odesa, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract:

Purpose. Increased protection of structures of the mining and chemical industries in case of fires by improving the technology for producing intumescent fire retardant mastics.

Methodology. Theoretical method for studying the technology of producing intumescent fire retardant mastic based on previously obtained experimental data.

Findings. The compositions of intumescent fire retardant mastics, the procedure for applying new compositions are developed and substantiated, which will allow increasing the fire resistance of the surfaces of structures of the mining and chemical industries.

Originality. The possibility is shown of increasing the fire resistance of coatings by improving their composition, which will significantly protect building structures from the occurrence of fires through the use of intumescent fire retardant mastics. The analysis of the mechanism for obtaining the necessary structure of intumescent coatings is disclosed and the technology of their deposition is improved.

Practical value. The impact of changes in various components of intumescent coatings using different amounts of additives, fillers and plasticizers on the most important operational and physico-mechanical properties of the new protective material was evaluated. This will increase the fire protection of various structures of the mining and chemical industries, which in turn will lead to an increase in the time to eliminate fire and to reduce the threat of service personnel from the technological and environmental disasters.

References.

1. Shmandiy, V.M., Kharlamova, E.V., & Rigas, T.E. (2015). The study of manifestations of environmental hazards at the regional level. Gigiena i Sanitariya, 7, 90-92.

2. Bezsonov, Y., & Andreiev, V. (2016). Justification and formalization of approach to regional environmental safety evaluation. Eastern-European Journal of Enterprise Technologies, 2(10(80)), 9-18. DOI: 10.15587/1729-4061.2016.64843.

3. Xin, J., & Huang, C. (2013). Fire Risk Assessment of Residential Buildings Based on Fire Statistics from China, Fire Technology, 50(5), 1147-1161. DOI: 10.1007/s10694-013-0327-8.

4. Oreshchenko, A., & Nesterchuk, I. (2017). Development and use of a geoinformation system for revealing urban problems. Eastern-European Journal of Enterprise Technologies,2(2(86)), 32-41. DOI: 10.15587/1729-4061.2017.98809.

5. Vambol, S., Vambol, V., Sychikova, Y., & Deyneko, N. (2017). Analysis of the ways to provide ecological safety for the products of nanotechnologies throughout their life cycle. Eastern-European Journal of Enterprise Technologies, 1(10(85)), 27-36. DOI: 10.15587/1729-4061.2017.85847.

6. Ministry of Emergencies of Ukraine (2014). National reports on the state of ecological and technogenic safety in Ukraine for 1997‒2014. Retrieved from http:// www.mns.gov.ua/content/national_lecture.html.

7. The State Emergency Service of Ukraine (2015). Information and analytical report on emergency situations in Ukraine, which occurred during 2015. Retrieved from http:// www.dsns.gov.ua/ua/Dovidka-za-kvartal/44615.html.

8. Sjostrom, J., Amon, F., Appel, G., & Persson, H. (2015). Thermal exposure from large scale ethanol fuel pool fires. Fire Safety Journal, 78, 229-237.

9. Jinlong, Zh., Hong, H., Grunde, J., Maohua, Zh., & Yuntao, L. (2017). Spread and burning behavior of continuous spill/res. Fire Safety Journal, 91, 347-354.

10. Andronov, V., Pospelov, B., & Rybka, E. (2016). Increase of accuracy of deNnition of temperature by sensors of Nre alarms in real conditions of Nre on objects. Eastern-European Journal of Enterprise Technologies, 4-5(82), 38-44.

11. Rumiantsev, V., Yakubin, N., Bielokon, K., Matukhno, E., & Leventsova, C. (2015). Ecological aspects of the neutralization of gas emissions leaving from the resin storehouse of joint – stock company “Zaporozhkoks”. Metallurgical and Mining Industry, 4, 105-109.

12. Taran, N.A. (2010). Harmonization of standards in time of testing the fire protection means. Pokraska professionalnaya, 4, 6-7.

13. Ivanets, G., & Gorelyshev, S. (2016). Assessment of anthropogenic-natural-social threats of state regions based on the method of vector-statistical analysis regarding the area and population. Nauchnyy zhurnal “Vlast’ i obshchestvo” (Istoriya, Teoriya, Praktika), 3(39), 162-174.

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ISSN (print) 2071-2227,
ISSN (online) 2223-2362.
Journal was registered by Ministry of Justice of Ukraine.
Registration number КВ No.17742-6592PR dated April 27, 2011.

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