Increasing the Fire Resistance of Reinforced Concrete Structures

Asgat Gazizov; Elena Popova; Vadim Abzalilov; Aisylu Sagitova

doi:10.4028/p-1754m8

Paper Titles

Experimental Study of Material Structure in the Processing of Ball Pins
p.887

Thin Ni/Al Metal Films Characterization Using a High-Frequency Electromagnetic Field
p.893

Nonlocality of Dynamic Characteristics for Edge Dislocation Segment, Elastic Interaction of Dislocation with Pinning Points, and their Effect on Dislocation AIIF
p.902

Dispersion of the Steel Structure and its Effect on Magnetic and Mechanical Properties of Steel
p.908

Increasing the Fire Resistance of Reinforced Concrete Structures
p.914

Justification of the Titanium-Based Alloy Chemical Composition to Provide High Hardness
p.923

Numerical Simulation of the Stress-Strain State of a Hybrid Titanium-Polymer Composite Material for Optimizing the Design of Aircraft Structures
p.930

Research of Wear Resistance of Medical Materials during Friction with High-Molecular Polyethylene
p.935

In Situ Phase Transformations in CrN/Cr-Сoated E110 Alloy under High Temperature
p.940

HomeKey Engineering MaterialsKey Engineering Materials Vol. 910Increasing the Fire Resistance of Reinforced...

Increasing the Fire Resistance of Reinforced Concrete Structures

Abstract:

The disadvantage of reinforced concrete structures is their gradual destruction at high temperatures, above 250-300°C under the influence of fire, due to disturbance of cement binder structure. Therefore, the development of a fire-resistant composition for reinforced concrete is urgent. The article describes the study of tetraethoxysilane (TES) 6% and 10% as a fire retardant additive for sand-cement mortar, for building structures made of metal, the experimental study of sand-cement mortar using tetraethoxysilane 6% and 10%, with different methods of application to the metal is stated. An assessment of the effectiveness of TPP in interaction with sand-cement mortar is given.

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Periodical:

Key Engineering Materials (Volume 910)

Pages:

914-922

DOI:

https://doi.org/10.4028/p-1754m8

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Online since:

February 2022

Authors:

Asgat Gazizov, Elena Popova, Vadim Abzalilov, Aisylu Sagitova*

Keywords:

Fire Protection, Reinforced Concrete Structures, Tetraethoxysilane

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References

[1] Influence of design factors on redistribution of forces in reinforced concrete bar structures [Electronic resource]. - Access mode: https://www.dissercat.com/content/vliyanie-konstruktivnykh-faktorov-na-pereraspredelenie-usilii-v-sterzhnevykh-zhelezobetonnyk - Date of access: 02.04.(2021).

Google Scholar

[2] Increasing the fire resistance of reinforced concrete building structures with thin-layer fire-retardant coatings [Electronic resource]. - Access mode: https://www.dissercat.com/content/povyshenie-ognestoikosti-zhelezobetonnykh-stroitelnykh-konstruktsii-s-pomoshchyu-tonkosloiny- Access date: 03.04.(2021).

Google Scholar

[3] Concrete and reinforced concrete structures. Rules for fire protection. Revision No. 1. Developed by Research, Design and Technological Institute of Concrete and Reinforced Concrete named after A.A. Gvozdev (NIIZhB named after A.A. Gvozdev) - Institute of JSC SIC Construction.

DOI: 10.31659/0585-430x-2018-765-11-15-20

Google Scholar

[4] A.M. Gazizov, E.V. Popova, O.V. Kuznetsova, A.A. Akhmadullin, Method of increasing the fire resistance of wood IOP Conference Series: Materials Science and Engineering, Volume 971(3).

DOI: 10.1088/1757-899x/971/3/032029

Google Scholar

[5] E.V. Popova, Intelligent assessment systems of emergency and fire hazards at facilities, In the collection: Computer integration of production and IPI-technology materials VIII All-Russian scientific-practical conference, Orenburg State University, 2017, pp.692-695.

Google Scholar

[6] A.M. Gazizov, O.V. Kuznetsova, A.A. Sharafutdinov and K.M. Shaimuhametova, Improvement of fire retardant properties of wood materials, IOP Conference Series: Materials Science and Engineering (2020).

DOI: 10.1088/1757-899x/919/6/062014

Google Scholar

[7] A.M. Gazizov, E.G. Samosenko, F.Sh. Khafizov, Optimal temperature and time of wood impregnation with Bioperin antiseptic MIG-09, Oil and Gas Business, number 1, 2020, pp.126-139.

DOI: 10.17122/ogbus-2020-1-126-139

Google Scholar