English
Русский 4-10 p.
Scientific and technological principles of alternative plasma technology for the production of two-layer heat-resistant glass-like decorative coating were developed. The compositions of the intermediate heat-resistant layer and the technology of its application to the surface of the enclosing block of foam glass are proposed. The optimal parameters of plasma melting of heat-resistant and decorative coating layers were determined. The influence of high-speed characteristics of plasma jet thermal melting on the formation of texture and performance of two-layer heat-resistant coating is established. The features of the formation of amorphous vitreous and glass-crystalline phases of a two-layer heat-resistant coating are presented. Using x-ray phase analysis, the features of the phase composition of different layers of heat-resistant coating, as well as the laws of formation of its structural elements are studied. Based on the analysis of significant experimental material, it was concluded that the formation of the upper amorphous layer with liquating regions and minor gas inclusions. The conducted researches allowed to reveal and justify the features of the structure of the layers lying under the amorphous liquating. It was found that the two-layer protective and decorative coating had high physico-chemical and physico-mechanical properties: adhesion strength to the matrix of the foam glass block-1.25 ± 0.05 MPa, microhardness-785 HV, heat resistance-122°C, acid resistance – 98.5%, alkali resistance – 95.4%.
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2. Yatsenko E.A., Goltsman B.M., Smoliy V.A., Kosarev A.S. and ets. Investigation of the influence of foaming agents' type and ratio on the foaming and reactionary abilities of foamed slag glass. Biosciences Biotechnology Research Asia. 2015. 12. P. 625 – 632.
3. Yatsenko E.A., Gol’tsman B.M., Yatsenko L.A., Karandashova N.S. and ets. Application of Computer Technologies for Modeling the Process of Formation of the Porous Structure of Foamed Glass. Glass and Ceramics. 2017. 74 (7-8). P. 267 – 269.
4. Yatsenko E.A., Goltsman B.M., Yatsenko L.A. Investigation of the raw materials’ composition and ratio influence on the structure and properties of the foamed slag glass. Materials Science Forum. 2016. 843. P. 183 – 188.
5. Bessmertnyi V.S., Krokhin V.P., Panasenko V.A., Nikiforov V.M. and ets. Glazed wall ceramics using kmawaste. Glass and ceramics. 1998. 55 (7-8). P. 222 – 223.
6. Akulova M.V., Fedosov S.V. Atmospheric and corrosion resistance ingrease of concrete by plasma spaying of zink. Problemy naukowo-badawczebudownietwa: XLIII Konferencja naukowa. Poznan: Krynia, 1997. VI. P. 5 – 7.
7. Fedosov S.V., Akulova M.V., SHCHepochnika YU.A. i dr. Plazmennoe oplavlenie stroitel'nyh kompozitov. M.: Izd-vo ASV; Ivanovo: IGASU, 2009. 228 p. (rus.)
8. Zdorenko N.M., Bondarenko N.I., Borisov I.N., Izofatova D.I., Dorokhova E.S. Increase of competitiveness of wall construction materials with use of plasma technologies. International Journal of Applied and Fundamental Research. 2014. 2.
9. Voloshko N.I., Koval'chenko N.A., Zdorenko N.M., Kupavcev EH.I. Povyshenie korrozionnoj stojkosti betonnyh izdelij metodom plazmennoj obrabotki. Mezhdunarodnyj zhurnal ehksperimen-tal'nogo obrazovaniya. 2017. 1. P. 114. (rus.)
10. Volokitin G.G., Skripnikova N.K., Volokitin O.G. Razrabotka plazmennyh tekhnologij dlya strojindustrii. Aktual'nye problemy sovremennosti. 2017. 1 (15). P. 150 – 154. (rus.)
11. Bessmertny V.S., Min'ko N.I., Bondarenko N.I., Simachev A.V. and ets. Evaluation of the competitiveness of wall building materials with glassy protective-decorative coatings obtained by plasma fusing. Glass and Ceramics. 2015. 72 (1-2). P. 41 – 46.
12. Buyantuev S.L., Bylkova N.V., Zayahanova M.E. Zashchitno-dekorativnye pokrytiya na stroitel'nyh izdeliyah s ispol'zovaniem syr'evyh materialov Buryatii. Stroitel'nye materialy. 2002. 8. P. 22 – 23. (rus.)
13. Bondarenko D.O., Bondarenko N.I., Bessmertnyi V.S., Burlakov N.M. Plasma-chemical modification of concrete processed by colorific metal salts. Advances in Engineering Research. 2017. 133. P. 128 – 134.
14. Zdorenko N.M., Izotova I.A., Strokova V.V., Bondarenko D.O. i dr. Plazmohimicheskoe modificirovanie steklokristallicheskogo kompozicionnogo materiala. Mezhdunarodnyj zhurnal ehksperimental'nogo obrazovaniya. 2017. 8. P. 50. (rus.)
15. Fedosov S.V, Akulova M.V., Koshelev E.V. Zakreplenie plazmooplavlennogo steklovidnogo dekorativnogo sloya na betone s pomoshch'yu propitok. Nauchnyj Vestnik Voronezhskogo gosudarstvennogo arhitekturno-stroitel'nogo universiteta. 2008. 3. P. 44 – 49. (rus.)
16. Koval'chenko N.A., Zdorenko N.M., Burlakov N.M., Karajchencev R.S. Plazmennoe napylenie cvetnyh metallov na izdeliyah stenovoj keramiki. Mezhdunarodnyj zhurnal ehksperimental'nogo obrazovaniya. 2016. 11-1. P. 81. (rus.)
17. Zdorenko N.M., Il'ina I.A., Bondarenko N.I., Borisov I.N. i dr. Formirovanie kachestva i konkurentosposobnosti stenovyh stroitel'nyh materialov avtoklavnogo tverdeniya. Sovremennye naukoemkie tekhnologii. 2014. 10. P. 120. (rus.)
Bessmertny V.S., Kochurin D.V., Bragina L.L., Varfolomeeva S.V. A block of thermal insulation materials with protective and decorative coatings. Construction Materials and Products. 2019. 2 (1). P. 4 – 10. https://doi.org/10.34031/2618-7183-2019-2-1-4-10