English
Русский 4-10 p.
The scientific and technological principles of metallization of products on the basis of wood with use of plasma high-temperature dispersion are developed. For the purpose of prevention of impact of the highest temperatures of a plasma stream on a front surface wood and fibrous board (fibreboard) an intermediate layer was put.
The structure of an intermediate protective layer, the including mix of epoxy resin with refractory filler is developed. Operation of drawing a protective intermediate layer included several specially developed technological stages. For the subsequent metallization such non-ferrous metals as copper and aluminum in the form of a wire are used. Optimum parameters of plasma dusting of metals on a front surface of a fibreboard are determined
The protective and decorative covering on the basis of non-ferrous metals had high aesthetic consumption and performance properties. The covering possessed the increased coefficient of diffusive reflection and high durability of coupling with a matrix. The dependence of influence of thickness of the raised dust metal covering on durability of coupling of a covering with a substrate is established.
The developed technology of metallization of products from wood in comparison with traditional technologies, allows to lower significantly time of metallization and energy consumption and to increase competitiveness of products both on internal, and on external the markets.
The structure of an intermediate protective layer, the including mix of epoxy resin with refractory filler is developed. Operation of drawing a protective intermediate layer included several specially developed technological stages. For the subsequent metallization such non-ferrous metals as copper and aluminum in the form of a wire are used. Optimum parameters of plasma dusting of metals on a front surface of a fibreboard are determined
The protective and decorative covering on the basis of non-ferrous metals had high aesthetic consumption and performance properties. The covering possessed the increased coefficient of diffusive reflection and high durability of coupling with a matrix. The dependence of influence of thickness of the raised dust metal covering on durability of coupling of a covering with a substrate is established.
The developed technology of metallization of products from wood in comparison with traditional technologies, allows to lower significantly time of metallization and energy consumption and to increase competitiveness of products both on internal, and on external the markets.
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20. Fedosov S.V., Akulova M.V., Fedosov S.V. i dr.Svojstva ogneupornyh kompozitov na mekhanoaktivirovannom rastvore silikata natriya. Vestnik MGSU. 2012. 1. P. 57 – 62. (rus.)
2. 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.)
3. Zdorenko N.M., Bessmertnyj V.S., Dyumina P.S. i dr. Plazmohimicheskoe modificirovanie blochnyh teploizolyacionnyh materialov. Fundamental'nye issledovaniya. 2018. 6. P. 9 – 14. (rus.)
4. Bessmertny V.S., Min'ko N.I., Bondarenko N.I. 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.
5. 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.)
6. Bondarenko D.O., Bondarenko N.I., Bessmertnyi V.S. and ets. Plasma-chemical modification of concrete processed by colorific metal salts. Advances in Engineering Research. 2017. 133. P. 128 – 134. (rus.)
7. Bessmertnyi V.S., Krokhin V.P., Panasenko V.A., Nikiforov V.M., Shvyrkina O.N. Glazed wall ceramics using kmawaste. Glass and ceramics. 1998. 55 (7-8). P. 222 – 223.
8. Akulova M.V., Fedosov S.V. Atmospheric and corrosion resistance ingrease of concrete by plasma spaying of zink. Problemynaukowo-badawczebudownietwa: XLIII Konferencjanaukowa. Poznan: Krynia, 1997. VI. P. 5 – 7.
9. 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.)
10. Bessmertnyj V.S., Zubenko S.N., Antropova I.A. i dr. Innovacionnaya tekhnologiya polucheniya zashchitno-dekorativnyh pokrytij na drevesine i izdelij iz neyo. Uspekhi sovremennogo estestvoznaniya. 2014. 5-1. P. 181. (rus.)
11. Koval'chenko N.A., Zdorenko N.M., Gashchenko EH.O. i dr. Plazmennaya tekhnologiya polucheniya blochnogo penostekla. Mezhdunarodnyj zhurnal ehksperimental'nogo obrazovaniya. 2017. 4-2. P. 147. (rus.)
12. Bessmertnyi V.S., Min'ko N.I., Glaz V.N. and ets. The effect of argon plasma on reduction of variable-valence oxides in synthesis of minerals. Glass and Ceramics. 2004. 61 (1-2). P. 63 – 64.
13. Zdorenko N.M., Izotova I.A., Strokova V.V. i dr. Plazmohimicheskoe modificirovanie steklokristallicheskogo kompozicionnogo materiala. Mezhdunarodnyj zhurnal ehksperimental'nogo obrazovaniya. 2017. 8. P. 50. (rus.)
14. 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.)
15. Zdorenko N.M., Il'ina I.A., Bondarenko N.I. i dr. Formirovanie kachestva i konkurentosposobnosti stenovyh stroitel'nyh materialov avtoklavnogo tverdeniya. Sovremennye naukoemkie tekhnologii. 2014. 10. P. 120. (rus.)
16. Bazhenov YU.M., Fedosov S.V., SHCHepochkina YU.A., Akulova M.V. Vysokotemperaturnaya otdelka betona steklovidnymi pokrytiyami. M.: Izd-vo ASV, 2005. 128 p. (rus.)
17. Zdorenko N.M., Kovalchenko N.A., Izofatova D.I. Innovative plasma technology of receipt of protective and decorative coverings on the block foamglass. International Journal of Applied and Fundamental Research. 2016. 2. P. 19.
18. Zdorenko N.M., Il'ina I.A., Bondarenko N.I. i dr.Zashchitno-dekorativnye pokrytiya dlya stenovyh stroitel'nyh materialov avtoklavnogo tverdeniya. Mezhdunarodnyj zhurnal ehksperimental'nogo obrazovaniya. 2015. 9. P. 81 – 82. (rus.)
19. Bondarenko N.I., Bessmertnyj V.S., Borisov I.N. i dr. Betony s zashchitno-dekorativnymi pokrytiyami na osnove alyuminatnyh ogneuporov, oplavlennye plazmennoj struej. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V. G. SHuhova. 2016. 2. S. 181 – 185. (rus.)
20. Fedosov S.V., Akulova M.V., Fedosov S.V. i dr.Svojstva ogneupornyh kompozitov na mekhanoaktivirovannom rastvore silikata natriya. Vestnik MGSU. 2012. 1. P. 57 – 62. (rus.)
Bondarenko N.I., Bondarenko D.O., Kochurin D.V., Bragina L.L., Varfolomeeva S.V. Technology of plasma metallization of the wood and fibrous board. Construction Materials and Products. 2018. 1 (3). P. 4 – 10. https://doi.org/10.34031/2618-7183-2018-1-3-4-10