Degradation damages survey of the silt reservoir structures

The aim of this work is to obtain information about the condition of the sludge tank supporting and enclosing building structures, identifying and fixing existing defects in order to assess their possible impact on structures during its further operation. Archival surveys were carried out, site documentation was selected and studied, load-bearing structures engineering measurements were carried out, building structures were inspected, and the structural condition was photographed selectively, graphic materials were made, technical conclusions were drawn up with conclusions and recommendations for further structures safe operation in order to achieve this goal. The technical surveying included a building structures external examination with damages fixation. The structures general technical condition of the, the presence and nature of the defect’s propagation were previously visually recorded, and then refined using measuring equipment. Verification calculations were also carried out with the design and current load analysis on the sludge tank elements, and the tank supporting structures concrete strength was determined by the ultrasonic method.

1. Donchenko O.M., Suleymanova L.A., Rimshin V.I., Ryabchevskiy I.S. Tensile Deformations of «Mild» Reinforcing Steels for Reinforced Concrete Structures. Lecture Notes in Civil Engineering. 2021. 147, Pp. 302–308

2. Fedorova N., Kolchunov V., Tuyen Vu.N., Iliushchenko T. Determination of stiffness parameters of reinforced concrete structures using the decomposition method for calculating their survivability IOP Conference Series: Materials Science and Engineering, 2021. 1030(1). 012078.

3. Kablov E.N., Erofeev V.T., Rimshin V.I., ...Dergunova A.V., Moiseev V.V. Plasticized epoxy composites for manufacturing of composite reinforcement Journal of Physics: Conference Series, 2020. 1687(1). 012031.

4. Karpenko N.I., Kolchunov V.I., Kolchunov V.I., Travush V.I. Calculation model of a complex-stressed reinforced concrete element under torsion with bending International Journal for Computational Civil and Structural Engineering, 2021. 17(1). Pp. 34–47.

5. Karpenko N.I., Rimshin V.I., Eryshev V.A., Shubin L.I. Deformation Models of Concrete Strength Calculation in the Edition of Russian and Foreign Norms IOP Conference Series: Materials Science and Engineering, 2020.753(5). 052043.

6. Klueva N., Emelyanov S., Kolchunov V., Gubanova M. Criterion of crack resistance of corrosion damaged concrete in plane stress state Procedia Engineering. 2015. Т. 117. С. 179-185.

7. Kolchunov V.I., Savin S.Yu. Survivability criteria for reinforced concrete frame at loss of stability Magazine of Civil Engineering. 2018. № 4 (80). С. 73-80.

8. Kolchunov V.I., Fedorova N.V., Savin S.Yu., Kovalev V.V., Iliushchenko T.A.Failure simulation of a rc multi-storey building frame with prestressed girders Magazine of Civil Engineering. 2019. № 8 (92). С. 155-162.

9. Kolchunov V.I., Savin S.Y. Dynamic effects in a composite two-component rods which appear when local fracture of the matrix is occurred Journal of Applied Engineering Science. 2017. Т. 15. № 3. С. 329-335.

10. Krishan A.L., Rimshin V.I., Shubin I.L., Astafeva M.A., Stupak A.A. Compressed Reinforced Concrete Elements Bearing Capacity of Various Flexibility Lecture Notes in Civil Engineering, 2022. 182. С. 283–291.

11. Kolchunov V.I., Dem'yanov A.I. The modeling method of discrete cracks and rigidity in reinforced concreteMagazine of Civil Engineeringthis, 2019. 88(4). Pp. 60–69.

12. Kuzina E.S., Rimshin V.I. Calculation Method Analysis for Structure Strengthening with External Reinforcement IOP Conference Series: Materials Science and Engineering, 2020. 753(2). 022004.

13. Lukin M., Martynov V., Rimshin V., Aleksiievets I. Reinforced Concrete Vertical Structures Under a Gently Sloping Shell of Double Curvature Under the Influence of Progressive Collapse Lecture Notes in Civil Engineering, 2022. 182. С. 577–587.

14. Merkulov S., Rimshin V., Akimov E., Kurbatov V., Roschina S. Regulatory support for the use of composite rod reinforcement in concrete structures IOP Conference Series: Materials Science and Engineering, 2020. 896(1). 012022.

15. Merkulov S.I., Rimshin V.I., Shubin I.L., Esipov S.M. Modeling of the Stress-Strain State of a Composite External Strengthening of Reinforced Concrete Bending Elements IOP Conference Series: Materials Science and Engineering, 2020. 753(5). 052044.

16. Neverov A.N., Truntov P.S., Ketsko E.S., Rimshin V.I. Calculating the Strengthening of Construction Structures Before the Reconstruction of the BuildingLecture Notes in Civil Engineering, 2022. 182. С. 173–179.

17. Rimshin V.I., Telichenko V.I., Krishan A.L., Truntov P.S., Bykov G.S. Assessment of the impact of high temperature on the strength of reinforced concrete structures during operation Key Engineering Materials, 2021. 887 KEM. С. 460–465.

18. Rimshin V.I., Kalaydo A.V., Semenova M.N., Bykov G.S. Regularities research of radon transfer to underground enclosing buildings structures IOP Conference Series: Materials Science and Engineering, 2020. 953(1). 012088.

19. Rimshin V.I., Kuzina E.S., Shubin I.L. Analysis of the structures in water treatment and sanitation facilities for their strengthening Journal of Physics: Conference Series, 2020. 1425(1). 012074.

20. Rimshin V.I., Roshchina S.I., Ketsko E.S., Truntov P.S., Kuzina I.S. Engineering Calculations of Acidifier Retaining Walls During Water Treatment Facilities DesigningLecture Notes in Civil Engineering, 2022. 182. Pp. 55–73.

21. Sergeev M., Rimshin V., Lukin M., Zdralovic N. Multi-span composite beam IOP Conference Series: Materials Science and Engineering, 2020. 896(1). 012058.

22. Telichenko V., Rimshin V., Ketsko E. Reinforced concrete structures stress-strain state strengthen with composite materials IOP Conference Series: Materials Science and Engineering, 2020. 869(5). 052003.