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Determination of the Fire-Retardant Efficiency of Magnesite Thermal Insulating Materials to Protect Metal Structures from Fire

Sergii Guzii, Yurii Otrosh, Olena Guzii, Andrіі Kovalov, Konstantinos Sotiriadis

2021Materials science forum17 citationsDOIOpen Access PDF

Abstract

This paper presents the results of fire test of an I-beam protected by a combined magnesite plate-magnesite mixture heat-insulating material. It was shown that a composite with an average thickness of 37 mm maintained an average temperature of 380 °C on the metal surface after 150 minutes of fire exposure, not exceeding the critical value of 500 °C. From 60 to 100 minutes of fire testing (furnace temperature of 980-1025 °C), the temperature of the metal did not exceed 100 °C. This was achieved both due to the high thermal insulation properties of the magnesite mixture, and due to gas and vapor release from the hydration products of magnesia cement. The developed fire-retardant material provides the first group of fire-retardant efficiency (150 minutes) and, after the fire test, is characterized by density of 352.4 kg/m 3 and compressive strength of 0.85 MPa, which is three times lower than the original.

Topics & Concepts

Fire retardantMaterials scienceMagnesiteComposite materialCompressive strengthThermal insulationMagnesiumMetallurgyLayer (electronics)Magnesium Oxide Properties and ApplicationsEnvironmental and Industrial SafetyRecycling and utilization of industrial and municipal waste in materials production
Determination of the Fire-Retardant Efficiency of Magnesite Thermal Insulating Materials to Protect Metal Structures from Fire | Litcius