Heat-Induced Strength Behavior of “Steel - Wood” Composite Modified by Flame Retardant

V.F. Torosyan; V.Yu. Timofeev

doi:10.4028/p-34186t

Paper Titles

Comparison the Preparation Methods of Powder Feedstock for Laser Powder Bed Fusion
p.63

Structure, Magnetic Characteristics and Stress-Strain State of Structural Steel Welded Pipelines
p.73

In Situ Studies of Strain Fields in Titanium Welds under Tensile Loads by Digital Image Correlation Method
p.83

On Mechanism of Weld Crystallization in Arc Welding with Controlled Actions
p.93

Chromium-Lanthanide Multi-Ligand Complexes as Precursors of New Materials
p.99

Modeling the Influence of Mechanical Control Impacts on the Distribution of the Temperature Field in the Base Metal during Surfacing with a Strip Electrode
p.107

Investigation of the Effect of Thermal Limiters on the Change in the Structure Formation of Deposited Multilayer Specimens from Steel AISI 308LSi
p.115

Influence of Forming Graphite Skids on the Change in Hardness of Deposited Multilayer Specimens
p.123

Heat-Induced Strength Behavior of “Steel - Wood” Composite Modified by Flame Retardant
p.131

HomeSolid State PhenomenaSolid State Phenomena Vol. 328Heat-Induced Strength Behavior of “Steel - Wood”...

Heat-Induced Strength Behavior of “Steel - Wood” Composite Modified by Flame Retardant

Abstract:

The heat-induced behavior of strength characteristics demonstrated by a “steel – wood” composite has been studied. The study has revealed the bending strength of steel plates in contact with a wooden bar is maximal if treated by a flame retardant agent containing phosphorous and urea solution.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Solid State Phenomena (Volume 328)

Pages:

131-137

DOI:

https://doi.org/10.4028/p-34186t

Citation:

Cite this paper

Online since:

February 2022

Authors:

V.F. Torosyan*, V.Yu. Timofeev

Keywords:

Bending Strength, Fire Resistance, Flame Retardant, Modified Composition, Steel Plate

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Vorontsov V.M. Metallic materials in architecture: study guide [Text]/ Mos'pan V.I. – Belgorod: BSTU Publishing, 2009. 56 p. – (In Russian) Voroncov V. M. Metallicheskie materialy v arhitekture: uchebnoe posobie [Tekst]/ Mos'pan V. I. – Belgorod: izd-vo BGTU, 2009. 56 p.

Google Scholar

[2] Kodur V, Dwaikat M., Fike R. High-Temperature Properties of Steel for Fire Resistance Modeling of Structures // Journal of Materials in Civil Engineering. Vol. 22. Iss. 5. Р. 423-434.

DOI: 10.1061/(asce)mt.1943-5533.0000041

Google Scholar

[3] Hanus, F., Caillet, N., Gaillard, S. and Vassart, O. (2019), Strength reduction factors for S355 to S500 steel grades under steady-state and transient-state heating,, Journal of Structural Fire Engineering, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/JSFE-01-2019-0001.

DOI: 10.1108/jsfe-01-2019-0001

Google Scholar

[4] Demekhin V.N. Buildings, constructions and their resistance in fire [Text] / Mosalkov I.L., Plyusnina G.F., Serkov B.B., Frolov A.Yu. M.: Fire Fighting Academy of State Fire Service, Ministry of Emergency Situations of Russia, 2003. 656 p. – (In Russian) Demehin V. N. Zdanija, sooruzhenija i ih ustojchivost' pri pozhare. [Tekst] / Mosalkov I.L., Pljusnina G.F., Serkov B.B., Frolov A.Ju. M.: Akademija GPS MChS Rossii, 2003. 656 p.

DOI: 10.25257/tts.2018.1.77.12-21

Google Scholar

[5] Grysin A.A. Buildings and their stability in fires [Text] / A.A. Grysin. M.: Prospect, 2008. 241 p. (In Russian) Gryzin, A.A. Zadanija i ih ustojchivost' pri pozharah [Tekst] / A.A. Gryzin. M.: Prospekt, 2008. 241 p.

Google Scholar

[6] Romanov А.L. Properties of constructional materials and assessment of their properties [Text] / А.L. Romanov. – М.: World of Books, 2009. - 201 p. – (In Russian) Romanov A.L. Svojstva stroitel'nyh materialov i ocenka ih kachestva [Tekst] / A.L. Romanov. M.: Mir knigi, 2009. 201 р.

Google Scholar

[7] Nedviga Е. S. Fire protection methods of building structures [Text] / Solov'eva К. I., Kiselev S. S. // Young scholar. – 2015. - №24. – P. 160 – 163. – (In Russian) Nedviga E. S. Sposoby zashhity stroitel'nyh konstrukcij ot ognevogo vozdejstvija [Tekst] / Solov'eva K. I., Kiselev S. S. // Molodoj uchenyj. 2015. №24. P. 160-163.

Google Scholar

[8] Taubkin I.S. Temperature and time assessment of wood burning according to carbonized layer: instructional guidelines [Тext] / Theory and practice of expert evidence – 2017 – Vol. 12, № 4 – P. 37-46. – (In Russian) Taubkin I.S. Opredelenie temperatury i dlitel'nosti gorenija drevesiny na pozhare po parametram obuglennogo sloja: metodicheskie rekomendacii [Tekst] / Teorija i praktika sudebnoj jekspertizy. 2017. Tom 12, № 4. P. 37-46.

DOI: 10.30764/1819-2785-2017-12-4-37-47

Google Scholar

[9] Mesquita, L.M.R.; Piloto, P.A.G.; Vaz, M.A.P. (2007). Experimental study of intumescent fire protection coatings. In II European Coatings Conference Fire Retardant Coatings. Berlin, Germany.

Google Scholar

[10] GOST 15898-70 Linen and semi-linen fabrics. Method of determination of flame-proof properties (with Change N 1). Interstate standard.

Google Scholar

[11] GOST R 53292-2009. Fire resistant compositions and substances for wood and wood-based materials. General requirements. Test methods.

Google Scholar

[12] Technical regularities on safety of buildings and constructions. Federal Law, issued on the 30th of 2009. № 384-FL.

Google Scholar

[13] Balakin V.М. Study on fire protection efficiency of nitrogen and phosphorous containing agents for wood [Тext] /Poleshchuk Е.Yu., Litvinets Yu. I. et al. // Fire-explosion safety – 2007 – Vol. 16, № 5 – P. 39-40. (In Russian) Balakin V.M. Izuchenie ognezashhitnoj jeffektivnosti azot-fosforsoderzhashhih so-stavov dlja drevesiny [Tekst] /Poleshhuk E.Ju., Litvinec Ju.I.i dr. // Pozharovzryvobezopas-nost'. 2007. Tom 16, № 5. P. 39-40.

Google Scholar

[14] Petrycki, A. and Salem, O. (2019), Structural fire performance of wood-steel-wood bolted connections with and without perpendicular-to-wood grain reinforcement,, Journal of Structural Fire Engineering, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/JSFE-02-2019-0016.

DOI: 10.1108/jsfe-02-2019-0016

Google Scholar

[15] Muhaned A. Shallal and Sallal Rashid Al-Owaisy Strength and Elasticity of Steel Fiber Reinforced Concrete at High Temperatures, Journal of Engineering and Development, Vol. 11, No. 2, pp.125-133, (2007).

Google Scholar