Currently, high-rise construction has received increasing attention around the world. In the big cities under construction is less space and one solution is the high-rise construction. However, high-rise buildings use special requirements, such as strength, thermal insulation, wind load and others. When concrete is exposed to continuous loads by wind or to mechanical loads, it undergoes abrasion. Resistance to this process depends on the characteristics of materials that the concrete and finishing seams are made of. Research on increasing impact and abrasion resistance of calcium sulfoferrite-based cement stone from the perspective of formation of cement stone structure will be instrumental in developing durable materials for application in high-rise construction.
calcium sulffoferrite, expansive cements, non-shrinkage cements
1. Osobennosti ocenki vetrovogo vozdeystviya na vysotnye zdaniya // Molodezhnyy nauchnyy forum: Tehnicheskie i matematicheskie nauki: elektr. sb. st. po materialam XXX stud. mezhdunar. zaochnoy nauch.-prakt. konf. - M.: «MCNO». - 2016 -№ 1 (30) / [Elektronnyy resurs] - Rezhim dostupa. - URL: https://nauchforum.ru/archive/MNF_tech/1(30).pdf
2. Samchenko S.V. Sul'foalyumoferritnye cementy, svoystva i primenenie/ Beton i zhelezobeton \ Sbornyy zhelezobeton. 2014, №1 (10). S.18-21
3. Svetlana V. Samchenko, Dmitriy A. Zorin Use sulfoferritic cements in construction// E3S Web of Conferences 33, 02070 (2018) https://doi.org/10.1051/e3sconf/20183302070 International Scientific Conference on High-Rise Construction, HRC 2017
4. Samchenko S.V., Kouznetsova T.V. Resistance of the calcium sulphoaluminate phases to carbonation //Cement, Wapno, Beton. 2014. T. 2014. № 5. P. 317-322
5. Samchenko S.V. Formirovanie i genezis struktury cementnogo kamnya. Monografiya - M.: Moskovskiy gosudarstvennyy stroitel'nyy universitet, Ay Pi Er Media, EBS ASV, 2016. - 284 s. Rezhim dostupa: http://www.iprbookshop.ru/49874
6. Pengkun Hou, Rui Zhang, Yamei Cai, Xin Cheng, Surendra P. Shah In situ Ca(OH)2 consumption of TEOS on the surface of hardened cement-based materials and its improving effects on the Ca-leaching and sulfate-attack resistivity // Construction and Building Materials, Volume 113, 15 June 2016, Pages 890-896
7. T.V.Kouznetsova, D.J.Frenkel, Y.R.Krivoborodov The use shrinkage-compensating cements in metro building/ 12th International Congress on the Chemistry of Cement (ICCC). Montreal, Canada, 2007, pst. 5.07
8. Kuznecova T.V., Frenkel' D.Ya., Krivoborodov Yu.R. Modificirovanie portlandcementa dlya ustraneniya usadki betona/ Cement i ego primenenie, 2007, № 4. - s.14-15
9. Harchenko I.Ya., Harchenko A.I., Alekseev V.A., Bazhenov M.A. Primenenie rasshiryayuschihsya cementov dlya fibronabryzgbetona pri stroitel'stve podzemnyh sooruzheniy // Vestnik MGSU. 2017. Tom 12(3 (102)). S. 334-340.
10. Brykov A.S., Vasil'ev A.S., Mokeev M.V. Sul'fatostoykost' portlandcementnogo kamnya s alyumosoderzhaschimi uskoritelyami shvatyvaniya // Cement i ego primenenie. 2013. № 5. S. 59-63.
11. Safarov K.B., Stepanova V.F. Regulirovanie reakcionnoy sposobnosti zapolniteley i povyshenie sul'fatostoykosti betonov putem sovmestnogo primeneniya nizkokal'cievoy zoly-unosa i vysokoaktivnogo metakaolina Stroitel'nye materialy. 2016. № 5. S. 70-73.
12. Kramar L.Ya., Trofimov B.Ya., Gamaliy E.A. Betony vysokoy sul'fatostoykosti // Cement i ego primenenie. 2011. № 4. S. 127-131.
13. Samchenko, S.V. Corrosion resistance of sulfated cements in carbonate and in carbonate-sulfate mediums / S.V. Samchenko, O.V. Zemskova, D.A. Zorin // MATEC Web of Conferences 106, 03014 (2017) DOI:https://doi.org/10.1051/matecconf/201710603014 SPbWOSCE-2016.
14. Osokin A.P., Krivoborodov Yu.R. Svoystva rasshiryayuschihsya cementov i ih primenenie // Cement i ego primenenie. 2004. № 6. S. 43.
15. Samchenko S.V., Zorin D.A. Influence of fineness of expansive components of cement properties // Cement-Wapno-Beton, vol. XIII/LXXV, № 5, 2008. - P. 254-257.
16. Krivoborodov Yu.R., Samchenko S.V. Fiziko-himicheskie svoystva sul'fatirovannyh klinkerov Analiticheskiy obzor / Moskva, 1991. Ser. I Cementnaya promyshlennost' Vypusk 2. 55 s.
