Affiliation:
1. Kyiv National University of Construction and Architecture
2. National University of Life and Environmental Sciences of Ukraine
Abstract
The effect of the composition on the weight loss of wood protected by a coating based on inorganic and organic substances in the process of thermal exposure, which is a feature of the study of the flame retardant effectiveness of the composition, is investigated. The solution of this problem is carried out by specially developed methods. The influence of fire protection under the influence of high-temperature heat flux on the change in the process of loss of mass of fire-protected wood is determined and the mechanism of kinetics of action of the composition is characterized, which is characterized by a decrease in the speed of flame propagation and mass loss. The results of thermogravimetric studies determined the weight loss of the coatings as a function of temperature, the results of which investigated the activation energy at the temperature decomposition of the coatings and found that for wood it was 36.56 kJ / mol, and in the case of fire protection it increased 2.3 times. which makes it possible to conclude that it is advisable to use lacquer varnish to improve the fire retardant efficiency of wood. Thus, for the specimen of fire-retardant lacquer wood, there is a gradual decrease in temperature, ie, the work of the coating is fixed, and, accordingly, the activation energy is increased during the decomposition of the wood. In order to establish the flame retardant efficiency in the application of high-temperature blowing lacquer, studies were conducted to determine the combustibility index of wood by mass loss, flame spread and temperature increase of flue gases and found that when processing wood goes to the group of combustible materials with a burning index.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference20 articles.
1. N.A. Tichino, Features of the practical application of fire and bioprotective agents for wood impregnation. Fire and explosion hazard of substances and materials. 6 (2002) 38-43.
2. A.A. Leonovich, Chemical approach to the problem of reducing the fire hazard of wood materials. Fire and explosion hazard of substances and materials. 3 (1996) 10-14.
3. V.P. Booth, V.M. Zhartovsky et al. A new approach to the fire protection of cellulose products. Fire explosion safety. 5 (2004) 31-32.
4. F. Carosio, J. Kochumalayil, F. Cuttica, G. Camino, L. Berglund Oriented Clay Nanopaper from Biobased Components Mechanisms for Superior Fire Protection Properties. ACS Appl. Mater. Interfaces. 7 (10) (2015) 5847-5856.
5. Yu. Tsapko, А. Tsapko, O. Bondarenko, Establishment of heat-exchange process regularities at inflammation of reed samples. Eastern-European Journal of Enterprise Technologies. 1/10 (97) (2019) 36-42.
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