ON ASSESSMNENT OF PHYSICAL WEAR IN ELEMENTS OF TECHNICAL DEVICES

Real assessment of wear in technical devices, construction structures, minings, their elements and connections is of great importance for provision of operational security and efficiency. Natural properties of the overwhelming majority of materials follow to probabilistic (stochastic) laws due to various reasons (external influence, processing technologies and others). An assessment of physical wear rate of buildings and structures and their elements is carried out in the former republics of the USSR mainly in accordance with external physical signs (deflections, cracks, layer separations, etc.) but wear percentage is often calculated on the basis of replacement cost in comparison with the initial one even without taking into account inflation which did not officially exist in the USSR. In this case destruction or failure of structure or their elements are considered as 100 % wear.

1. Pilipenko, V. M., Osipov, S. N. (2013). Method for probabilistic assessment of physical wear of building elements. Patent Republic of Belarus No. 17120.

2. Osipov, S. N., Pilipenko, V. M. (2013). Method for probabilistic assessment of physical wear of building elements. Eurasian Patent Office No. 018263.

3. Kolotilkin, B. M. (1989). Reliability in functioning of residential buildings. Moscow, Stroyizdat. 274 p. (in Russian).

4. Riabtsev, V. N. (2014). Stochastic approach to assessment of reliability and residual resource of transport structures. Nauka i tekhnika [Scienec and Technique], 5, 24–29 (in Russian).

5. Tarasov, L. V. (1984). World is built on probability.Moscow, Prosveshchenie. 192 p. (in Russian).

6. VSN 53-86(p) [ Departmental building codes]. Regulations for assessment of physical wear of residential buildings. Moscow, State Committee on Civil Construction and Architecture attached to USSR Gosstroy, 1988. 72 p.

7. TKP 45-1.04-119–2008 (02250). Buildings and structures. Assessment of physical wear rate. Minsk, Minstroyarkhitektury, 2009. 44 p. (in Russian).

8. ??? 58-88(p) [ Departmental building codes]. Statute on organization and execution of reconstruction, repair and maintenance of buildings, communal, social and cultural objects. ?oscow, State Committee on Civil Construction and Architecture attached to USSR Gosstroy, 1990. 32 p. (in Russian).

9. Matveev, E. P. (1999). Reconstruction of residential buildings. Part 1. Theory, methods and technologies for reconstruction of residential buildings. Moscow, GUPTsPP [State Unitary Enterprise Center design products in construction]. 367 p. (in Russian).

10. Pisarenko, G. S., Agarev, V. A., Kvitka, A. L., Popkov, V. G., Umanskii, E. S. (1973). Resistance of materials. Kiev, Vysccha shkola. 672 p. (in Russian).

11. Ruditsyn, M. N., Artemov, P. Ya., Liouboshits, M. I. (1961). Reference book on material resistance. Minsk, Gosizdat BSSR. 516 p. (in Russian).

12. Lapchinsky, A. K. (2005). Operational reliability of reinforced concrete open-frame girder. Arkhitektura i stroitelstvo [Architecture and construction], 1, 114–116 (in Russian).

13. Yanko, Ya. (1961). Mathematical and statistical tables. Moscow, Gosstatizdat. 244 p. (in Russian).