USE OF SECONDARY RAW MATERIALS FOR OBTAINING GLASS-CRYSTAL MATERIALS

  • O.G Volokitin Tomsk State University of Architecture and Civil Engineering (TSUAB)
  • N.K Skripnikova Tomsk State University of Architecture and Civil Engineering (TSUAB)
  • O.A. Kunts Tomsk State University of Architecture and Civil Engineering (TSUAB)
  • E.E. Sabitov NAO "Eurasian National University named after L.N. Gumilyov"
Keywords: plasma; ash; melting; crystallization; strength.

Abstract

The compositions for obtaining glass-ceramic materials based on sols using plasma have been studied. A
complex of physicochemical studies of glass-ceramic materials of various compositions has been carried out. The
optimal composition was chosen, which was characterized by the best physical and mechanical properties

References

1. Park J., Choi J.H., Na H., Kim H.-J. Effect of CaF2 on fluorocarbon plasma resistance and thermal properties of CaO-Al2O3-SiO2 glasses. Journal of Asian Ceramic Societies. 2021. Vol. 9(1). P. 311-317.
2. Lazareva E. A. Mamaeva S. Ju., Tararina M. O. Sintez zharostojkih steklokristallicheskih pokrytij s ispol'zovaniem 10 mkm 40 mkm vysokoglinozemistogo othoda // Steklo i keramika. 2009. № 3. S. 21–23.
3. Adylov G. T., Akbarov R. Ju., Voronov G. V. Steklokristallicheskie materialy na osnove katalizirovannogo steklokordieritovogo sostava, sintezirovannogo pod vozdejstviem koncentrirovannogo luchistogo potoka // Steklo i keramika. 2009. № 4.S. 6–9.
4. Yeganyan Ju. Physico-chemical properties and structural transformations in the synthesis of boroalumosilicate glass-crystal materials // Himija i himicheskaja tehnologija. 2021. № 1 (71). S. 3-8.
5. Skripnikova N.K., Lucenko A.V., Vlasov V.A. Fiziko-himicheskie aspekty formirovanija struktury steklokristallicheskogo materiala // Izvestija vysshih uchebnyh zavedenij. Fizika. 2016. T. 59. № 9-3. S. 290-292
6. Vlasov V.A., Skripnikova N.K., Lucenko A.V. Sintez steklokristallicheskih materialov iz rasplava, poluchennogo s ispol'zovaniem vysokokoncentrirovannyh istochnikov nagreva // Izvestija vysshih uchebnyh zavedenij. Fizika. 2015. T. 58. № 9-3. S. 79-82.
7. Cheng T.W., Tu C.C., Ko M.S., Ueng T.H. Production of glass-ceramics from incinerator ash using lab-scale and pilot-scale thermal plasma systems. 2011. Ceramics International. 2011. Vol. 37(7). P. 2437-2444
8. Yan M., Cheng W., Liu Y. Et al. Novel method for efficient solidification the iodine contained waste by B2O3–Bi2O3 glass powder at very low temperature. Journal of Radioanalytical and Nuclear Chemistry. 2021. Vol.329(3). P. 1467-1476
9. Buyantuev S.L., Guiling N., Kondratenko A.S. et al Waste industrial processing of boron-treated by plasma arc to produce the melt and fiber materials. Lecture Notes in Electrical Engineering. 2016. Vol. 365. P. 353-361.
10. Volokitin G., Vlasov V., Skripnikova N. Et al. Plasma technologies in construction industry. Key Engineering Materials. 2018. Vol. 781. P. 143-148
11.Song X., Sun Y., Zhong H. Et al. Synthesis of silica glass by plasma chemical vapor deposition method. Journal of the Chinese Ceramic Society. 2008. Vol. 36(4). P. 531-534.
Published
2022-12-07
How to Cite
Volokitin, O.G, N.K Skripnikova, O.A. Kunts, and E.E. Sabitov. 2022. “USE OF SECONDARY RAW MATERIALS FOR OBTAINING GLASS-CRYSTAL MATERIALS”. EurasianUnionScientists, December, 06-12. https://fizmat-tech.euroasia-science.ru/index.php/Euroasia/article/view/836.
Issue
EURASIAN UNION OF SCIENTISTS. SERIES: TECHNICAL AND PHYSICAL AND MATHEMATICAL SCIENCES. VOLUME 1 №07 (100) (2022)
Section
Article

CC BY-ND

A work licensed in this way allows the following:

1. The freedom to use and perform the work: The licensee must be allowed to make any use, private or public, of the work.

2. The freedom to study the work and apply the information: The licensee must be allowed to examine the work and to use the knowledge gained from the work in any way. The license may not, for example, restrict "reverse engineering."

2. The freedom to redistribute copies: Copies may be sold, swapped or given away for free, in the same form as the original.