Russian Federation
Russian Federation
Russian Federation
Russian Federation
UDK 666.94 Цементная промышленность
GRNTI 81.09 Материаловедение
OKSO 18.06.01 Химическая технология
BBK 38 Строительство
TBK 6 ЕСТЕСТВЕННЫЕ НАУКИ. МАТЕМАТИКА
In Russia, a rapid growth in construction sphere is observed, which by the end of 2023 amounted to 110 million 438.5 thousand square meters. m. housing, which is 7.5% more than a year earlier. The construction process is carried out using high-tech innovative building materials with unique properties, durability, friendly to the environment and humans. Howev-er, in addition to the advantages, modern building materials should be financially accessible, their application should not lead to an unjustified increase in the cost of the project. In this article, the authors analyze the economic efficiency of using a ployfunctional additive based on the TiO2-Bi2O3 oxide system in order to create concrete mixtures, self-cleaning cement plasters, grout solutions for ceramic tile resistant to fouling by microscopic mold fungi. As a result of the research, the authors concluded that a polyfunctional additive based on the TiO2-Bi2O3 oxide system can be used to obtain a wide range of building materials.
cement, additive, bismuth titanate, plaster, concrete mixture, grout, economic efficiency
1. Wang Y., Lei L., Liu J., Ma Y., Liu Y., Xiao Z., Shi C. Accelera-tors for normal concrete: A critical review on hydration, micro-structure and properties of cement-based materials // Cement and Concrete Composites. - 2022. - Vol. 134. - DOIhttps://doi.org/10.1016/j.cemconcomp.2022.104762.
2. Barabanshchikov Y., Vasil’ev A.S. The effectiveness of setting and hardening accelerators for sprayed concrete // Magazine of Civil Engineering. - 2012. - 34. - p. 72-78. DOI:https://doi.org/10.5862/MCE.34.11.
3. Serdyukova A. A., Rahimbaev I. Sh. O mehanizme deystviya uskoriteley shvatyvaniya i tverdeniya cementnoy matricy be-tona // Vestnik BGTU imeni V. G. Shuhova. - 2013. - №2.
4. Belous N. H., Koshevar V.D., Kreer T.V. Vliyanie dobavok kis-lotnogo tipa na udoboukladyvaemost' i prochnostnye svoystva plastificirovannyh portlandcementnyh sistem // Zhurnal prikladnoy himii. – 2009. – T. 82. – № 10. – S. 1700-1705.
5. Belous N. H., Kosheva V.D., Rodcevich S.P. Kompleksnye za-medliteli gidrofobno-strukturiruyuschego tipa i ih vliyanie na svoystva plastificirovannyh betonov // Zhurnal priklad-noy himii. – 2009. – T. 82. – № 9. – S. 1566-1570.
6. Paschevskaya N. V. Monosaharidy kak effektivnye zamedlite-li srokov shvatyvaniya tamponazhnyh rastvorov // Stroitel'-stvo neftyanyh i gazovyh skvazhin na sushe i na more. – 2017. – № 6. – S. 29-31.
7. Kudelko, O.A. Ispol'zovanie himicheskih dobavok v mono-litnyh betonnyh i zhelezobetonnyh konstrukciyah // Vestnik Polockogo gosudarstvennogo universiteta. - 2010. - №12. - 10 s.
8. Brykov A., Panfilov A.S., Medvedeva I.N., Mokeev M. Structure of modern commercial polycarboxylate plasticizers and their ef-fect on the properties of portland cement materials // Cement and its application. - 2018. - №2. - S. 86-93.
9. Ben Aicha M. The superplasticizer effect on the rheological and mechanical properties of self-compacting concrete // New Materi-als in Civil Engineering. - 2020. - P. 315-331. DOIhttps://doi.org/10.1016/B978-0-12-818961-0.00008-9.
10. Fedosov S.V., Rumyanceva V.E., Konovalova V.S., Evsyakov A.S. Kol'mataciya: yavlenie, teoriya, perspektivy primeneniya dlya upravleniya processami korrozii betonov // Stroitel'nye materialyyu. - 2017. - № 10. S. 10–17.
11. Bogdanov R. R., Mustafin A.A., Shebanova S.N. Vliyanie gidrofobiziruyuschih dobavok na svoystva cementnyh kompo-ziciy // Vestnik tehnologicheskogo universiteta. - 2015. - T.18. - №21.
12. Voytovich V.A., Hryapchenkova I.N. Napravleniya primeneniya gidrofobizatorov v stroitel'stve // Construction materials. - 2015. №7.
13. Debelova N.N., Gorlenko N.P., Nehoroshe V.P., Sarkisov Yu.S., Zav'yalova E.N., Zav'yalov P.B. Gidrofobizator na osnove okislennogo atakticheskogo polipropilena // Izvestiya Tom-skogo politehnicheskogo universiteta. - 2013. - T. 322. - № 3. - S. 91-94.
14. Vatin N.I., Barabanschiko Yu.G., Komarinskiy M.V., Smirnov S.I. Modifikaciya litoy betonnoy smesi vozduhovovlekayuschey dobavkoy // Magazine of Civil Engineering. - 2015. - №4 (56). DOI:https://doi.org/10.5862/MCE.56.1.
15. Vol'f A. V., Kozlova V.K., Manoha A.M. Vliyanie himiche-skih dobavok na svoystva melkozernistyh peschanyh betonov // Polzunovskiy al'manah. - 2020. -T. 1. - № 2. -S. 50-54.
16. Elyasigorji F., Farajiani F., Hajipour Manjili M., Lin Q., Elya-sigorji S., Farhangi V., Tabatabai H. Comprehensive Review of Direct and Indirect Pozzolanic Reactivity Testing Methods // Buildings. - 2023. - 13. - DOI: https://doi.org/10.3390/buildings13112789.
17. Chouhan J., Chandrappa A. A systematic review on photocata-lytic concrete for pavement applications: An innovative solution to reduce air pollution // Innovative Infrastructure Solutions. - 2023. - Vol.8(90). - DOI:https://doi.org/10.1007/s41062-023-01060-6.
18. Krushelnitskaya E.A. Evaluation of photocatalytic activity of concrete // Bulletin of BSTU named after V.G. Shukhov. - 2021. - №4. - P.13–20. - DOI:https://doi.org/10.34031/2071-7318-2021-6-4-13-20.
19. Meleshko A.A., Afinogenova A.G., Afinogenov G.E., Spiri-donova A.A., Tolstoy V.P. Antibakterial'nye neorganicheskie agenty: effektivnost' ispol'zovaniya mnogokomponentnyh sistem // Infekciya i immunitet. - 2020. - №4. - S. 639-654.
20. Sharafutdinov K., Saraykina K., Kashevarova G., Erofeev V. The use of copper nanomodified calcium carbonate as a bactericid-al additive for concrete // International Journal for Computa-tional Civil and Structural Engineering. - 2022. - №18. - P. 143-155. - DOI:https://doi.org/10.22337/2587-9618-2022-18-2-143-155.
21. Svetlov D., Svetlova E., Svetlov D. et al. Research into Anti-bacterial Activity of Novel Disinfectants Derived from Polyhex-amethylene Guanidine Hydrochloride // IOP Conference Series: Materials Science and Engineering. - 2021. - №1079. - DOIhttps://doi.org/10.1088/1757-899X/1079/6/062017.
22. Gavril'chik, A.V. K voprosu o primenenii biocidnyh do-bavok pri izgotovlenii effektivnyh betonnyh smesey i beto-nov // Grodnenskiy gosudarstvennyy universitet im. Ya. Ku-paly. C.41-42.
23. Samchenko S.V., Kozlova I.V., Korshunov A.V., Zemskova O.V., Dudareva M.O., Agafonova N.Z. Issledovanie fiziko-mehanicheskih i fotokataliticheskih svoystv cementnyh kom-pozitov, modificirovannyh promyshlennym dioksidom tita-na // Tehnika i tehnologiya silikatov. – 2023. – T. 30, № -2. – S. 152-161.
24. Queiróz A., Santos A., Queiroz T. et al. Ciprofloxacin Photo-degradation by CeO2 Nanostructures with Different Morphologies / Water Air Soil Pollut. - 2023. Vol. 234. - DOI:https://doi.org/10.1007/s11270-023-06424-3.
25. Wang X., Deng M., Zhao Z. et al. Synthesis of super-hydrophobic CuO/ZnO layered composite nano-photocatalyst // Materials Chemistry and Physics. - 2021. -Vol. 276. - DOI:https://doi.org/10.1016/j.matchemphys.2021.125305.
26. Lannah M.J., Kunarti E., Santosa S. Synthesis of Fe3O4/TiO2-S Composite and Its Activity Test as Photocatalyst on the Metanil Yellow Degradation // Key Engineering Materials. - 2023. - Vol. 944. - P. 191–200.
27. Ahmad N., Anae J., Khan M.Z. et al. A novel CuBi2O4/polyaniline composite as an efficient photocatalyst for ammonia degradation // Heliyon. - 2022. - Vol.8. - DOI:https://doi.org/10.1016/j.heliyon.2022.e10210.
28. Erofeev V., Smirnov V., Dergunova A. et al. Development and Research of Methods to Improve the Biosistability of Building Materials // Materials Science Forum. - 2019. - №974. - P. 305-311.- DOI:https://doi.org/10.4028/www.scientific.net/MSF.974.305.
29. Elektronnyy resurs: https://rearus.ru/index.php?route=product/product&product_id=31266. Data obrascheniya: 05.09.2024.
30. Elektronnyy resurs: https://www.mknano.com/Nanoparticles/Single-Element-Oxides/Titanium-Oxide-Nanopowder/TiO2-Anatase-10-nm-Photocatalyst. Data obrascheniya 05.09.2024.
31. Qin K., Zhao Q., Yu H., Xia X., Li J., He, S., Wei L. An. A re-view of bismuth-based photocatalysts for antibiotic degradation: Insight into the photocatalytic degradation performance, pathways and relevant mechanisms. Environ. Res. - 2021. - Vol. 199. DOI: https://doi.org/10.1016/j.envres.2021.111360.
32. Samchenko S.V., Kozlova I.V., Korshunov A.V., Zemskova O.V., Dudareva M.O. Synthesis and Evaluation of Properties of an Additive Based on Bismuth Titanates for Cement Systems // MDPI Materials. -2023. -№ 16(18). - p. 1-13. - DOI:https://doi.org/10.3390/ma16186262.
33. Kozlova I.V., Dudareva M.O. Perspektivnaya dobavka na os-nove sistemy TiO2-Bi2O3 dlya cementnyh kompozitov // Stroi-tel'nye materialy. - 2023. - № 11. - S. 100-103. - DOI:https://doi.org/10.31659/0585-430X-2023-819-11-100-103.
34. Kozlova I.V., Zemskova O.V., Samchenko S.V., Dudareva M.O. Varianty sinteza fotokataliticheski aktivnoy dobavki dlya cementnyh sistem // Tehnika i tehnologiya silikatov. - 2023. - T. 30. № 3. S. 206-216.
35. Dudareva M.O., Kozlova I.V., Zemskova O.V., Samchenko S.V., Korshunov A.V. Sposob polucheniya kompozicii s protivogrib-kovymi svoystvami // Patent na izobretenie RU 2820534 C1, 05.06.2024. Zayavka ot 15.06.2023.
36. Samchenko S.V., Kozlova I.V., Zemskova O.V., Dudareva M.O. Kolloidno-himicheskie aspekty stabilizacii suspenziy ton-kodispersnyh chastic titanata vismuta dlya cementnyh sistem // Nanotehnologii v stroitel'stve. - 2023. - T. 15. - № 5. - S. 397-407. - DOI:https://doi.org/10.15828/2075-8545-2023-15-5-397-407.
37. Samchenko S.V., Kozlova I.V., Zemskova O.V., Dudareva M.O. Metodologicheskoe obosnovanie vybora stabilizatora suspen-ziy tonkodispersnyh chastic titanata vismuta // Nanotehno-logii v stroitel'stve. - 2023. - T. 15. -№ 2. - S. 97-109. - DOI:https://doi.org/10.15828/2075-8545-2023-15-2-97-109.
38. Kozlova I.V., Dudareva M.O. Varianty vvedeniya tonkodis-persnoy dobavki na osnove sistemy TiO2-Bi2O3 v cementnye kompozicii // Nanotehnologii v stroitel'stve. - 2024. - T. 16. - № 2. - S. 90-99. - DOI:https://doi.org/10.15828/2075-8545-2023-16-2-90- 99.
