Frost resistance of cement-sand and concrete beams during unilateral freezing

Dobshits L. M. (2007). Obtaining concrete of increased durability for transport, industrial and civil structures. RIF “Rose of the World”, pp. 25 – 28. Search in Google Scholar

DSTU B V.2.7-47-96. - ДСТУ Б В.2.7-47-96. (ГОСТ 10060.0-95). “Concrete. Methods for determining frost resistance. General requirements”. Search in Google Scholar

DSTU B V.2.7-47-96:2008 - ДСТУ Б В.2.7-47-96. “Building materials. Concrete. Methods for determining the average density, humidity, water absorption, porosity and water resistance”2008 “Building materials. Concrete. Methods for determining the average density, humidity, water absorption, porosity and water resistance” Search in Google Scholar

DSTU B V.2.7-220:2009 - ДСТУ Б В.2.7-220: 2009 “Building materials. Concrete. Determination of strength by mechanical methods of non-destructive testing. Search in Google Scholar

DSTU B V.2.7-214:2009 - ДСТУ Б В.2.7-214:2009 “Concretes. Methods for determining the strength of control samples”. Search in Google Scholar

Dvorkin L. I., Dvorkin O. L. (2003). On the similarity of concrete frost resistance structures. News of higher educational institutions. - Construction, vol. 1, pp. 34–37. Search in Google Scholar

Khomenko A. A., Rogozha P. S., Ostra T. V. (2014). Развитие градиентов влажностных деформаций в неравномерно увлажненных конструкциях (Development of gradients of moisture deformations in unevenly moistened structures). Bulletin of ODABA, vol. 55, pp. 286-293. Search in Google Scholar

Kuntsevich O.V. (1981). Concrete with high frost resistance for the extreme north (1st ed.). Stroyizdat. Search in Google Scholar

Nepomyashchy О. М., Vyrovoy V. M., Makarova S. S., Khomenko A. A., (2020). Frost resistance of construction composites during one-sided freezing. Bulletin of ODABA, vol.79, pp. 109-116. Search in Google Scholar

Patent of Ukraine No. 5735: https://uapatents.com/2-5735-sposib-viyavlennyatrishhin-betonnikh-ta-zalizobetonnikh-konstrukcijj-na-neorganichnomuvyazhuchomu.html Search in Google Scholar

Podvalny A. M. (2004). About the concept of providing frost resistance of concrete in the structures of buildings and structures. Stroitelnye materialy, vol. 6, pp. 4–6. Search in Google Scholar

Powers T. C. (1945) Basic considerations pertaining to freezing and thawing tests (1st ed.). Proc. Am. Concrete Inst. Search in Google Scholar

Rusin Z. (2002). Technologia betonow mrozodpornych (1st ed.). Polski cement Sp. Zoo. Search in Google Scholar

Sheikin A.E., Dobshits L. M. (1989). Cement concrete with high frost resistance (1st ed.). Stroyizdat. Search in Google Scholar

Sumgin M. I. (1927). Permafrost of the soil within the USSR (1st ed.). Publishing house of the Academy of Sciences of the USSR. Search in Google Scholar

Vyrovoy V. N., Dorofeev V. S., Sukhanov V. G. (2010). Composite building materials and structures, structure, self-organization properties (1st ed.). Odessa “TES”. Search in Google Scholar

Vyrovoy V. N., Zakorchemnaya N. O., Zakorchemny Yu. O. (2007). Анализ механизма развития трещин при замерзании в их объеме воды (Analysis of the mechanism of crack development during freezing in their volume of water). DonNACEA Bulletin, vol. 1(63), pp. 96-100. Search in Google Scholar