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All issues Volume 533 (2024) E3S Web Conf., 533 (2024) 02025 References
Open Access
Issue
E3S Web Conf.
Volume 533, 2024
XXVII International Scientific Conference on Advance in Civil Engineering “Construction the Formation of Living Environment” (FORM-2024)
Article Number 02025
Number of page(s) 6
Section Reliability of Buildings and Constructions
DOI https://doi.org/10.1051/e3sconf/202453302025
Published online 07 June 2024
  1. Stepanova V.F. "Durability of concrete" // Textbook for universities - M., 2014, pp. 58–110. [Google Scholar]
  2. Puhonto L.M. "Durability of reinforced concrete structures of engineering structures" [Google Scholar]
  3. SP 63.13330.2018 "Concrete and reinforced concrete structures" [Google Scholar]
  4. Sakhnovsky K.V. "Reinforced concrete structures" M.: Stroyizdat, 1961. S. 840. [Google Scholar]
  5. Selyaev V.P. "Assessment and forecasting of the durability of building structures, buildings and structures" // Vestnik otdeliya stroitel'nykh nauk. Issue 1, 1996. RAASN. pp. 96–98. [Google Scholar]
  6. Tamrazyan, A.G. Calculation of structural elements for given reliability and normal distribution of load and bearing capacity. A.G. Tamrazyan//VestnikMGSU. -2012. - No. 10. - S. 109–115. [Google Scholar]
  7. Selyaev V.P., Nizina T.A. "Assessment of the durability of reinforced concrete structures using the method of degradation functions" // Second International Symposium. Problems of modern concrete and reinforced concrete. 4.1. Concrete and reinforced concrete structures. Minsk. 2009, pp. 369–385. [Google Scholar]
  8. Utkina V.N., Selyaev V.P., V.I. Solomatov. “Determination of degradation functions by the microhardness method. Calculation of structural elements exposed to aggressive environments” //Mezh.vuz. scientific Sat. Saratov. Polytech, in-t. - Saratov, 1985. S.50–53. [Google Scholar]
  9. Chernyakevich O.Yu., Leonovich S.N. “Probabilistic calculation of the service life of reinforced concrete structures with corrosion caused by cracking, flaking and destruction” // Second International Symposium. Problems of modern concrete and reinforced concrete. 4.1. Concrete and reinforced concrete structures. Minsk. 2009. S. 500–512 [Google Scholar]
  10. Tamrazyan A.G. Methodology for the analysis and assessment of the reliability of the state and forecasting the service life of reinforced concrete structures 2023(1). 5–18. Reinforced concrete structures [Google Scholar]
  11. Forecasting the durability of reinforced concrete structures, taking into account sulfate corrosion of concrete Doctor of Technical Sciences, Head of the Department V.P. Selyaev; Candidate of Physical and Mathematical Sciences, Associate Professor V.A. Neverov; Candidate of Technical Sciences, Associate Professor P.V. Selyaev; teacher of the department of building structures E.V. Sorokin; Competitor of the Department of Building Structures O.A. Yudina, FSBEI HPE "Mordovia State University named after A.I.N.P. Ogaryova". Magazine of Civil Engineering, No. 1, 2014. [Google Scholar]
  12. Tamrazyan A.G. Probabilistic method for calculating the durability of reinforced concrete structures exposed to chlorides // In the collection: Actual problems of the construction industry and education - 2021. Collection of reports of the Second National Scientific Conference. Moscow, 2022, pp. 100–106. [Google Scholar]
  13. Tamrazyan A.G., Mineev M.S., Zhukova L.I. Influence of chloride corrosion on probabilistic assessment of bearing capacity of beamless slabs overlap // IOP Conference Series: Materials Science and Engineering. XXVIIIR-P-S Seminar 2019.012052. [CrossRef] [Google Scholar]
  14. Clark L.A. "Structural Aspects of Alkali-silica Reaction". Structural Engineering Review 2, Chapman and Hall, 1990, pp.81–87. [Google Scholar]
  15. Brouwers H.J.H., Van Eijk R.J. Alkali concentrations of pore solution in hydrating OPC, Cem. Concr Res. 2003 Vol. 33.Pp. 191–196. [CrossRef] [Google Scholar]
  16. Philipose, K.E., et al. Durability Prediction from Rate of Diffusion Testing of Normal Portland Cement, Fly Ash and Slag Concrete // In Durability of Concrete (V.M. Malhotra, ed.) ACI SP-126, American Concrete Institute. pp.335–354. [Google Scholar]
  17. Streletskiy D.A., Shiklomanov N.I., Hatleberg E., 2012: Infrastructure and a Changing Climate in the Russian Arctic: A Geographic Impact Assessment Proceedings of the 10th International Conference on Permafrost, v. 1, p. 407–412. 101 [Google Scholar]
  18. Stephenson S.R., Smith L.C., Agnew J.A., 2011: Divergent long-term trajectories of human access to the Arctic, Nature Climate Change, 1(3), p. 156–160. [CrossRef] [Google Scholar]
  19. Prediction of the durability of reinforced concrete structures under the combined impact of carbonization and chloride aggression and their restoration Pod gen. ed. S.N. Leonovich, Minsk, BNTU 2021. [Google Scholar]
  20. SP-230-77 Durability of GFRP Reinforc Concrete in Field Structures by A. Mufti, M. Onofrei, B. Benmokrane, N. Banthia, M. Boulfiza, J. Newhook, B. Bakht, G. Tadros, and P. Brett. [Google Scholar]
  21. Construction and technical expertise of objects damaged in as a result of the flooding of L.A. Seferyan, V.E. Morozov, A.L. Mailyan, S.V. Sabadash Don State Technical University, Rostov-on-Don. Engineering Bulletin of the Don, No. 1 (2019) [Google Scholar]

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