Abstract
Methods are determined for the production of noncombustible reinforced materials of general purpose based on the use of oligomeric inorganic polyoxides and reinforcing fillers, as well as the molding of products under mild conditions. By the example of a chemically modified potassium salt of polysilicic acid (“liquid glass”) and technical fabrics of various nature, the possibility of obtaining thin-walled noncombustible composite materials is considered. A technology for molding the composites is developed, and their mechanical and thermal properties, including resistance to atmospheric moisture and combustibility, are studied.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
REFERENCES
A. Yu. Shaulov and A. A. Berlin, “Inorganic and hybrid polymers,” Vse Mater., Entsikl. Sprav., Nos. 9–10, 22 (2011).
A. Yu. Shaulov, Extended Abstract of Doctoral Dissertation in Chemistry (2014).
V. M. Lalayan, E. V. Stegno, A. V. Nikitin, A. A. Samoilenko, A. V. Grachev, I. I. Khazanov, A. Yu. Shaulov, V. M. Kopylov, and A. A. Berlin, “A hybrid resin based on organoelement and inorganic oligomers,” Polym. Sci., Ser. B 57 (1), 23–26 (2015).
S. L. Golynko-Vol’fson, M. M. Sychev, L. G. Sudakas, and L. I. Skoblo, Chemical Fundamentals of the Technology and Application of Phosphate Binders and Coatings (Khimiya, Leningrad, 1968) [in Russian].
V. A. Kopeikin, A. P. Petrova, and I. L. Rashkovan, Metallophosphate-Based Materials (Khimiya, Moscow, 1976) [in Russian].
V. A. Kopeikin, V. S. Klement’eva, and B. L. Krasnyi, Refractory Solutions Based on Phosphate Binders (Metallurgiya, Moscow, 1986) [in Russian].
G. I. Agafonov, I. A. Bezguzikova, and E. F. Itsko, Silicate Paints and Varnishes (Moscow, 1989) [in Russian].
O. L. Figovskii and P. G. Kudryavtsev, Liquid glass and aqueous solutions of silicates as a promising basis for technological processes for the production of new composite materials. http://figovsky.irias.org/stat/01_04_liqglass.pdf.
A. Yu. Shaulov, V. M. Lalayan, A. V. Grachev, E. M. Nechvolodova, L. A. Tkachenko, and A. A. Berlin, RF Patent No. 117357 (June 27, 2012).
A. Yu. Shaulov, V. M. Lalayan, A. V. Grachev, E. M. Nechvolodova, L. A. Tkachenko, and A. A. Berlin, RF Patent No. 2 493 966 (Sept. 27, 2013).
A. Yu. Shaulov, A. A. Andreichikov, L. A. Vasserman, and N. A. Shaulova, RF Patent No. 170 176 (Jan. 20, 2016).
A. Yu. Shaulov, V. M. Lalayan, E. V. Stegno, A. V. Grachev, and A. A. Berlin, RF Patent No. 170 650 (July 26, 2016).
A. Yu. Shaulov, A. A. Andreichikov, L. A. Vasserman, N. A. Shaulova, A. V. Grachev, V. M. Lalayan, and E. V. Stegno, RF Patent No. 171 733 (Feb. 20, 2017).
Funding
This work was financially supported in the framework of a state order of the Ministry of Science and Education of Russia, subject 45.11, 0082-2014-0009, no. AAAAA17-117040610309-0.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
The authors declare that they have no conflicts of interest.
Additional information
Translated by O. Polyakov
Rights and permissions
About this article
Cite this article
Shaulov, A.Y., Lalayan, V.M., Stegno, E.V. et al. Noncombustible Composites Based on Inorganic Polyoxides. Reinforcement with Fabrics. Polym. Sci. Ser. D 13, 58–63 (2020). https://doi.org/10.1134/S1995421220010189
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1995421220010189