Synthesis of Hydrophobic Nanosized Silicon Dioxide with a Spherical Particle Shape and Its Application in Fire-Extinguishing Powder Compositions Based on Struvite
Igor V. Valtsifer,
Yan Huo,
Valery V. Zamashchikov,
Artem Sh. Shamsutdinov,
Natalia B. Kondrashova,
Anastasia V. Sivtseva,
Anna V. Pyankova,
Viktor A. Valtsifer
Affiliations
Igor V. Valtsifer
Institute of Technical Chemistry, Ural Branch, Russian Academy of Sciences—Perm Federal Research Center, Russian Academy of Sciences, 614013 Perm, Russia
Yan Huo
College of Aerospace and Civil Engineering, Harbin Engineering University, Harbin 150001, China
Valery V. Zamashchikov
Institute of Chemical Kinetics and Combustion, Siberian Branch, Russian Academy of Sciences, 630090 Novosibirsk, Russia
Artem Sh. Shamsutdinov
Institute of Technical Chemistry, Ural Branch, Russian Academy of Sciences—Perm Federal Research Center, Russian Academy of Sciences, 614013 Perm, Russia
Natalia B. Kondrashova
Institute of Technical Chemistry, Ural Branch, Russian Academy of Sciences—Perm Federal Research Center, Russian Academy of Sciences, 614013 Perm, Russia
Anastasia V. Sivtseva
Institute of Technical Chemistry, Ural Branch, Russian Academy of Sciences—Perm Federal Research Center, Russian Academy of Sciences, 614013 Perm, Russia
Anna V. Pyankova
Institute of Technical Chemistry, Ural Branch, Russian Academy of Sciences—Perm Federal Research Center, Russian Academy of Sciences, 614013 Perm, Russia
Viktor A. Valtsifer
Institute of Technical Chemistry, Ural Branch, Russian Academy of Sciences—Perm Federal Research Center, Russian Academy of Sciences, 614013 Perm, Russia
Textural and morphological features of hydrophobic silicon dioxide, obtained by the hydrolysis of tetraethoxysilane in an ammonia medium followed by modification of a spherical SiO2 particles surface with a hydrophobic polymethylhydrosiloxane, were studied in this work. The size of silicon dioxide particles was controlled during preparation based on the Stöber process by variation of the amount of water (mol) in relation to other components. The ratio of components, synthesis time and amount of the hydrophobizing agent were determined to obtain superhydrophobic monodisperse silicon dioxide with a spherical particle size of 50–400 nm and a contact angle of more than 150°. In the case of the struvite example, it was demonstrated that the application of spherical- shaped hydrophobic silicon dioxide particles in powder compounds significantly improves the flowability of crystalline hydrates. The functional additive based on the developed silicon dioxide particles makes it possible to implement the use of crystalline hydrates in fire-extinguishing powders, preventing agglomeration and caking processes. The high fire-extinguishing efficiency of the powder composition based on struvite and the developed functional additive has been proven by using thermal analysis methods (TGA/DSC).
