This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
DSTU B V.2.7-176:2008 (EN 206-1:2000, NEQ) Construction materials. Fresh concrete mixtures and concrete. General specification.Search in Google Scholar
Ayub, T., N. Shafiq, Khan, S., Nuruddin, M. Durability of Concrete with Different Mineral Admixtures: A Review (https://www.researchgate.net/publication/ 279527294_Durability_of_concrete_with_different_ mineral_admixtures_A_comparative_review)Search in Google Scholar
Bapat, J.D. (2001). Performance of cement concrete with mineral admixtures. Advances in Cement Research, 13(4). 139–155.10.1680/adcr.2001.13.4.139Search in Google Scholar
Breit, W., Acid resistance of concrete. Retrieved from https://www.vdz-online.de/fileadmin/gruppen/vdz/ 3LiteraturRecherche/Betontechnische_Berichte/181-190_S_urewiderstand.pdfSearch in Google Scholar
Damtoft, J.S., (1999). Concrete binders, mineral additions and chemical admixtures: state of the art and challengers for the 21st century. J.S. Damtoft, D. Herfort, E.Yde, Creating with Conrete: Proc. the Intern. Conf., Scotland, Dundee, 1–15.Search in Google Scholar
Dvorkin, L. Y., Lushnikova, N.V., Runova R.F., Troian V. V., (2007). Metakaolin in construction mixtures and concretes. Kyiv: publisher KNUBA, 216.Search in Google Scholar
Fuller, W.B.; Thompson, S.E. (April 1907). The laws of proportioning concrete. American Society of civil engineers, Transactions, Paper Nr. 1053, 67–172.10.1061/TACEAT.0001978Search in Google Scholar
Hüttl, R.; Hillemeier, B.: High performance concrete – An example of acid Resistance. BFT 1/2000, 52–60.Search in Google Scholar
Lipus, K., Puntke, S., (2003). Sulfate resistance of concretes with different compositions. Betontechnologische Berichte 2001–2003, Verlag Bau + Technik, Düsseldorf, 169–179.Search in Google Scholar
Lohaus, Ludger; Petersen, Lasse (2007). High performance concretes with increased acid resistance for the cooling tower construction; the paper from: Beton-Informationen, 47(5/6), 71–79 ISSN: 01709283, (in German).Search in Google Scholar
Metha, P. K. (2004). High-Performance, High- Volume Fly Ash Concrete for Sustainable Development, P. K. Metha. Proc. the Intern. Workshop on Sustainable Development and Concrete technology, 20–21 May 2004, Chine – Beijing, 3–13.Search in Google Scholar
Pushkarova, K. K., Gonchar, O. A., Pavliuk, V. V. (2007). Efficiency of modification of ash-filled composition cements with superplasticizing additives with different action mechanisms. Production and application of construction chemistry composition materials, IV International scientific and technical conference Kyiv, 63–68.Search in Google Scholar
Pushkarova, K. K., Gonchar, O. A., Pavliuk, V. V., Pavliuk, I. M., (2004). Composition cements on base of ash-cement-sulphate mixtures modified with metakaolin additive. Bulletin of Odesa Building and Architecture Academy. Odesa: MRRP “Even”, 238–243.Search in Google Scholar
Sabir, B. B., (2001). Metakaolin and Calcined Clays as pozzolans for concrete: a review. B.B.Sabir, S. Wild, J.Bai, Cement and Concrete Composites. 23(6), 441–454.10.1016/S0958-9465(00)00092-5Search in Google Scholar
Sheinych, L. A., Popruha, P. V., (2005). High-strength concretes for monolithic housebuilding, Interdepartmental scientific-technical volume “Building structures”. 63, 95–99.Search in Google Scholar
Stark, J.,Wicht, B., (2001). Durability of concrete - as building material. Baupraxis Birkhäuser, Berlin (in German).Search in Google Scholar
Volkonsii, B. V., Makashev, S. D., Shteiert, N. P., (1972). Technological physical-chemical investigation of cement materials. Leningrad: Publisher of construction literature, 305.Search in Google Scholar
Gorshkov, V. S., (1981). Methods of physical and chemical analysis of binder materials, Moscow, 335.Search in Google Scholar
Boos, P., Giergiczny, Z. (2010). Testing the frost resistance of concrete with different cement types – experience from laboratory and practice. Architecture Civil Engineering Environment, 2(3), 41–51.Search in Google Scholar