Study of Reinforced Concrete Beams on Yielding Supports under Short-Term Dynamic Loading

Civil defense structures are exposed to short-term dynamic loads of high intensity. In order to reduce dynamic forces and movements of structures, active methods of protection, which include yielding supports, have been increasingly used in recent years. In this paper, the assessment of the influence of the yielding of supports is carried out based on the results of the calculation of reinforced concrete beams on yielding supports under short-term dynamic loading. The work of the structure is considered in the conditionally elastic stage, and yielding supports in the elastic, plastic and hardening stages. Collapsible inserts of an annular profile are accepted as yielding supports. For reinforced concrete beams on yielding supports, the equation of motion, function and coefficient of dynamism are determined. It has been established that the use of elastic yielding supports can have both positive and negative effects on the operation of structures, which is expressed in the excess of forces and displacements of structures on elastic supports relative to elements on non-displaceable supports. When yielding supports are deformed in the elastic and plastic stages, there is a sharp decrease in the dynamic coefficient of beams, and, consequently, stresses and deformations in structures. The transition of yielding supports to the stage of hardening leads to a sharp increase in the dynamic coefficient of the structure.

1. Birbrayer A.N., Roleder A.YU. Ekstremal'nyye vozdeystviya na sooruzheniya [Extreme impacts on structures]. SanktPeterburg: Izdatel'stvo Politekhnicheskogo universiteta, 2009. 594 p. (In Russ.)

2. Galyautdinov Z.R., Galyautdinov D.R., Gandziy M.V. Chislenno-eksperimental'nyye issledovaniya podatlivykh opor prikratkovremennom dinamicheskom nagruzhenii [Numerical-experimental studies of yielding supports under short-term dynamic loading]. Vestnik Tomskogo gos. arkhit.-stroit. un-ta. Tomsk. 2018. No. 4. Pp. 103 – 110. (In Russ.)

3. Elfetori F.A. Experimental Testing of Composite Tubes with Different Corrugation Profile Subjected to Lateral Compression Load World Academy of Science, Engineering and Technology International Journal of Mechanical. Industrial Sciencem and Engineering. 2013. Vol. 7. No. 2. Pp. 183 – 186.

4. Fan Z., Shen J., Lu G. Investigation of Lateral Crushing of Sandwich Tubes. The Twelfth East Asia-Pacific Conference on Structural Engineering and Construction. Procedia Engineering. 2011. No. 14. Pp. 442 – 449.

5. Lipa S., Kotełko M. Lateral impact of tubular structure – theoretical and experimental analysis. Part 1 – Investigation of single tube. Journal of theoretical and applied mechanics. 2013. Vol. 51. No. 4. Pp. 873 – 882.

6. Lion K.H., Amir R.A.G., Prasetyo E., Khairi Y. Impact Energy Absorption of Concentric Circular Tubes. Wseas transactions on applied and theoretical mechanics. 2009. Vol. 4. No.3. Pp. 95 – 104.

7. Younes M.M. Finite Element Modeling of Crushing Behaviour of Thin Tubes with Various Cross-Sections. 13th International Conference on Aerospace Science, Aviation Technology, ASAT – 13. May 26 – 28. 2009.

8. Somya P., Chawalit T., Umphisak T. An Analysis of Collapse Mechanism of Thin-Walled Circular Tubes. Subjected to Bending World Academy of Science. Engineering and Technology. 2007. Vol. 36. Pp. 329 – 334.

9. Kumpyak O.G., Galyautdinov Z.R., Kokorin D.N. Prochnost' i deformativnost' zhelezobetonnyh konstrukcij na podatlivyh oporah pri kratkovremennom dinamicheskom nagruzhenii [Strength and deformability of reinforced concrete structures on yielding supports under short-term dynamic load]. Tomsk: TSUAB Publ., 2016. 270 p. (In Russ.)

10. Kumpjak O.G., Kokorin D.N. Jeksperimental'nye issledovanija zhelezobetonnyh balok po naklonnym sechenijam pri kratkovremennom dinamicheskom nagruzhenii [Experimental studies of reinforced concrete beams along inclined sections under short-term dynamic loading]. Vestnik Tomskogo gos. arhit.-stroit. un-ta. 2011. No 1. Pp. 116 – 129. (In Russ.)

11. Kumpjak O.G., Malinovskij A.P., Pedikov A.V. Jeksperimental'no-teoreticheskoe issledovanie szhatyh zhelezobetonnyh balok na podatlivyh oporah pri kratkovremennom dinamicheskom nagruzhenii [Experimental and Theoretical Study of Compressed Reinforced Concrete Beams on Yielding Supports under Short-Term Dynamic Loading]. Vestnik Tomskogo gos. arhit.-stroit. un-ta. 2006. No 2. Pp. 110 – 114. (In Russ.)

12. Chiaia B., Kumpyak O.G., Placidi L., Maksimov V.B. Experimental analysis and modeling of two-way reinforced concrete slabs over different kinds of yielding supports under short-term dynamic loading. Engineering Structures. 2015. Vol. 96. P. 88 – 99.

13. Kumpjak O.G., Galjautdinov Z.R., Maksimov V.B. Zhelezobetonnye plity na podatlivyh oporah pri kratkovremennom dinamicheskom nagruzhenii [Reinforced concrete slabs on flexible supports under short-term dynamic loading]. Beton i zhelezobeton. 2014. No 5, Pp. 16 – 19. (In Russ.)

14. Odnokopylov G.I., Kumpyak O.G., Galyautdinov Z.R., Galyautdinov Z.R. Opredeleniye parametrov zhivuchesti zashchishchennykh otvetstvennykh stroitel'nykh konstruktsiy pri udarno-volnovom nagruzhenii [Determination of survivability parameters of protected critical building structures under shock-wave loading]. Izvestiya Tomskogo politekh-nicheskogo universiteta. Inzhiniring georesursov. 2019. T 330. No. 4. Pp. 110 – 125. (In Russ.)

15. Rastorguyev B.S. Prochnost' zhelezobetonnykh konstruktsiy zdaniy vzryvoopasnykh proizvodstv i spetsial'-nykh sooruzheniy, podverzhennykh kratkovremennym dinamicheskim vozdeystviyam [Strength of reinforced concrete structures of buildings of explosive industries and special structures subject to short-term dynamic effects]: Thesis of Doctoral diss. –Moscow, 1987. 37 p. (In Russ.)

16. Rastorguyev B.S. Uproshchennaya metodika polucheniya diagramm deformirovaniya sterzhenvykh elementov v stadii s treshchinami [Ensuring the survivability of buildings under special dynamic effects]. Beton i zhelezobeton. 1993. No. 5. Pp. 22–24. (In Russ.)

17. Said A.-R.A. Povysheniye nesushchey sposobnosti zhelezobetonnykh konstruktsiy pri vzryvnykh vozdeystviyakh [Increasing the bearing capacity of reinforced concrete structures under explosive effects]. Diss. Cand. Tech. Sc. Moscow, 1995. 207 p. (In Russ.)

18. Galyautdinov Z.R. Deformation of reinforced concrete slabs on yielding supports under short-time dynamic loading // AIP Conference Proceedings. 2017. 1800, 010001. doi: 10.1063/1.4973016

19. Kezmane A., Chiaia B., Kumpyak O., Maksimov V., Placidi L. 3D modelling of reinforced concrete slab with yielding supports subject to impact load. European Journal of Environmental & Civil Engineering. 2017. Vol. 21. Issue 7/8. Pp. 988– 1025.

20. Zabegayev A.V. Raschet zhelezobetonnykh konstruktsiy na avariynyye udarnyye vozdeystviya [Calculation of reinforced concrete structures for emergency impacts]. Moscow: MGSU, 1995. 156 p. (In Russ.)