Assessment of the technical condition of load-bearing structures of buildings based on accident risk forecasting

Each building and structure are a complex technical system with predetermined technical parameters that must be monitored throughout the entire life cycle. The purpose of the study is to develop a methodology for quantitatively assessing the technical condition of load-bearing systems of buildings to improve their structural safety and operational suitability. The dependence of the actual wear of a building on the period of natural oscillations is determined based on the theory of predicting the risk of an accident, which allows determining an increase in the period of natural oscillations of load-bearing systems of buildings to assess the category of their technical condition. The limits of increase of the period of natural vibrations of bearing systems of buildings are defined. They allow quantitatively estimate the category of the technical condition (0-4% - normative technical condition, from 5-10% - serviceable, from 11-49% - limited serviceable, 50-95% and higher - emergency).

1. Grozdov V.T. Defekty stroitel'nykh konstruktsiy i ikh posledstviya [Defects of building structures and their consequences]. Moscow: Elektronstandart-print. 2005. Pp.7-127.

2. Dobromyslov A.N. Diagnostika povrezhdeniy zdaniy i inzhenernykh sooruzheniy [Diagnostics of the building and engineering structures damages]. Moscow: MGSU, 2008. 304 p.

3. Lychev A.C. Nadezhnost' stroitel'nykh konstruktsiy [Reliability of building constructions]. Moscow: Publishing ASV, 2008. 84 p.

4. Zemlyanskiy A.A. Obsledovaniye i ispytaniye zdaniy i sooruzheniy [Inspection and Testing of Buildings and Structures]. Moscow Publishing: ASV, 2004. 240 s.

5. Nuriyeva D.M. Seysmostoykost' mnogoetazhnykh karkasnykh zdaniy pri znakoperemennom ne-lineynom deformirovanii nesushchikh elementov [Seismic stability of the multi-storey frame buildings at alternating non-linear deformation of the bearing elements]: dis. … kand. tekhn. nauk. Kazan', 2004.

6. Tamrazian A.G. Methodology for the Analysis and Assessment of the Reliability of the State and Prediction the Service Life of Reinforced Concrete Structures. Reinforced concrete structures. 2023;1(1):5-18. (In Russ.)

7. Tamrazyan A.G. Monitoring sostoyaniya konstruktsiy dlya obespecheniya ustoychivosti funktsio-nirovaniya i otsenki zhiznennogo tsikla [Condition monitoring of structures to ensure the stability of function-ning and life cycle assessment]. In collection: Aktual'nyye problemy stroitel'noy otrasli i obrazovaniya - 2023. Proceedings of Conference IV Natsional'noy nauchnoy konferentsii. Moskva, 2024. Pp. 38-42.

8. Tamrazyan A.G., Popov D.S. Napryazhenno-deformirovannoye sostoyaniye korrozionno-povrezhdennykh zhelezobetonnykh elementov pri dinamicheskom nagruzhenii [Stress-strain state of the corrosion-damaged reinforced concrete elements under dynamic loading]. Promyshlennoye i grazh-danskoye stroitel'stvo. 2019. No. 2. Pp.19-26.

9. Tamrazyan A.G., Dekhterev D.S., Karpov A.Ye., Laskovenko A.G. Opredeleniye raschetnykh para-metrov dlya otsenki nadezhnosti platformennykh stykov panel'nykh zdaniy [Determination of the Design Parameters for Reliability Assessment of Platform Joints of Panel Buildings]. In collection: sovremennyye problemy rascheta zhelezobetonnykh konstruktsiy, zdaniy i sooruzheniy na avariynyye vozdey-stviya. Under ed. A.G. Tamrazyan, D.G. Kopanitsa. 2016. Pp. 413-416.

10. Tamrazyan A.G., Filimonova Ye.A. Ratsional'noye raspredeleniye zhestkosti plit po vysote zdaniya s uchetom raboty perekrytiya na sdvig [Rational distribution of slab stiffness along the height of the building taking into account the slab shear operation]. Vestnik MGSU. 2013. No. 11. Pp. 84-90.

11. Tamrazyan A.G., Filimonova Ye.A. Metod poiska rezerva nesushchey sposobnosti zhelezobeton-nykh plit perekrytiy [Search method of the load-bearing capacity reserve of the reinforced concrete floor slabs]. Promyshlennoye i grazhdanskoye stroitel'stvo. 2011. No. 3. Pp. 23-25.

12. GOST R 53778-2010. Zdaniya i sooruzheniya, Pravila obsledovaniya i monitoringa tekhniche-skogo sostoyaniya [Buildings and structures, Rules for inspection and monitoring of technical condition].

13. Ellingwood B.R. et al. Best practices for reducing the potential for progressive collapse in buildings. U.S. National Institute of Standards and Technology (NIST). 2007. 216 p.

14. Zhang Q. et al. Reliability analysis of reinforced concrete structure against progressive collapse. Reliab Eng Syst Saf. 2022. Vol. 228. P. 108831.

15. Grunwald C. et al. Reliability of collapse simulation – Comparing finite and applied element method at different levels. Eng Struct. Elsevier, 2018. Vol. 176, № January. P. 265–278.

16. Shakhraman'yan M.A., Nigmetov G.M., Gayfullin Z.G., Babusenko M.S. Metodika otsenki i sertifikatsii inzhenernoy bezopasnosti zdaniy i sooruzheniy [Methodology of evaluation and certification of engineering safety of buildings and structures]. Vestnik FTS «VNII GOCHS». 2004. No. 2(4). Pp. 5-15.

17. Luzhin O.V. Veroyatnostnyye metody rascheta sooruzheniy [Technical operation and inspection of building structures]. Moscow: MISI, 1983. 122 p.

18. Abrashitov B.C. Tekhnicheskaya ekspluatatsiya i obsledovaniye stroitel'nykh konstruktsiy. Moscow, 2002. Pp. 20-54.

19. Pravila otsenki fizicheskogo iznosa zhilykh zdaniy [Rules for Assessment of Physical Depreciation of Residential Buildings] VSN 53-86 (r). Gosgrazhdanstroy, official edition. 1998.

20. Avirom L.C. Upravleniye kachestvom krupnopanel'nogo domostroyeniya [Quality management of large-

21. panel house-building]. Moscow: Stroyizdat, 1983. 200 p.