Actualization of Rules of Control and Assessment of Concrete Strength by GOST 18105

The main changes made to the edition of GOST 18105 “ Concrete. Rules of control and strength assessment”, in the course of its development in 2017 are described. The initial prerequisites of the work are systematized. The substantiations of the relevance of the revision and amendments to this GOST are given. The problems identified when using simplified control schemes are demonstrated. The conclusion of the value of the boundary coefficient of variation for the application of a simplified control scheme – the scheme “G” is presented. The key additions to the regulatory requirements of the standard are noted. The main directions of development of the standard and the necessary research for the coming years, including the harmonization of requirements for the control of strength with international standards, the development and determination of the hierarchy of methods of control, their accuracy are formulated. The relevance of development of a separate standard on terminology and classification of methods of concrete strength control is noted.

M.G. KOREVITSKAYA, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
M.I. BRUSSER Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
D.V. KUZEVANOV, Candidate of Sciences (Engineering),
A.V. ANTSIBOR, Engineer

Research, Design and Technological Institute For Concrete and Reinforced Concrete named after A.A. Gvozdev, “Research and Development Center “Stroitel’stvo” AO (6, 2nd Institutskaya Street, Moscow, 109428, Russian Federation)

1. Ekkel S.V. Some proposals for the addition of existing standards for road concrete. Tehnologii betonov. 2016. No. 7–8, pp. 50–60 (In Russian).
2. Sheinin A.M., Ekkel S.V. GOST 18105 for the control of concrete durability. Nauka i tekhnika v dorozhnoy otrasli. 2011. No. 4, pp. 32–35. (In Russian).
3. Deryugin L.M., On the issue of assessing the quality and strength of concrete. Beton i zhelezobeton. 2014. No. 1, pp. 23–27. (In Russian). 4. Vasiliev A.I., Evlanov C.F., Beyvel A.S. Control of strength of concrete in surveys of bridges. We need a separate GOST. Available at: http://www.concreteunion.ru/presscentre/detail.php?ID=14050 (Date of sccess 02.02.2018). (In Russian)
5. Kastornyh L.I., Trishchenko I.V., Gikalo M.A. Control and evaluation of concrete strength in prefabricated and ready-mixed concrete plants. Inzhenerniy vestnik Dona. 2013. No. 4 (27), p. 287. (In Russian).
6. Konoplev S.N. Again on the dominant method of controlling the strength of concrete monolithic structures. Tehnologii betonov. 2015. No. 1–2, p. 53. (In Russian).
7. Tur V.V. Statistical control of concrete compressive strength according STB EN 206 and GOST 18105–2010. Tehnologii betonov. 2015. No. 1–2, p. 64. (In Russian).
8. Gvozdev A.A., Krakovsky M.B., Brusser M.I., Igoshin V.L., Dorf V.A. The connection of statistical control of the strength of concrete with the reliability of reinforced concrete structures. Beton i zhelezobeton. 1984. No. 4. (In Russian).
9. Igoshin V.L. Methods of statistical control of concrete strength taking into account the reliability of reinforced concrete structures. Diss… Candidate of Science (Engineering). Moscow. 1985. 151 p. (In Russian).