Development of a procedure for the evaluation of the stressed-deformed state of pipe-concrete elements that are stretched off-center

Authors

DOI:

https://doi.org/10.15587/1729-4061.2017.106844

Keywords:

pipe-concrete, stressed-deformed state, off-center stretching, theory of elasticity, boundary condition

Abstract

We developed a procedure for the evaluation of the stressed-deformed state of pipe-concrete elements that are stretched off-center with an entire cross-section. The obtained functional dependences make it possible to establish the magnitudes of stresses and strains in the pipe-shell and the concrete of pipe-concrete elements that are stretched off-center depending on geometrical characteristics and physical-mechanical properties of the element materials.

The procedure takes into account the elastic stage of work of the materials considering the volumetric-stressed state and an increase in the loading from zero to destruction. The advantage of the developed procedure is the proposed simplified method for solving the system of defining equations based on the hypothesis about a joint work of the components of pipe-concrete (steel shell and concrete core) at all stages of loading with an off-center stretching effort. This procedure is implemented by consistently solving separate equations. The developed procedure for the evaluation of the stressed-deformed state of stretched pipe-concrete elements takes into account the negative impact of a bending moment, which is an additional force factor under conditions of the off-center stretching. Analysis of the comparison results of experimental data with those theoretical, obtained by the given procedure, confirms the hypothesis about joint work of the steel shell and the concrete core up until the moment when a pipe-concrete element that is stretched off-center runs out of its bearing capacity.

The proposed procedure for the evaluation of the stressed-deformed state makes it possible with a sufficient accuracy to determine the bearing capacity of pipe-concrete elements that are stretched off-center with different geometrical parameters and mechanical properties.

Results of the study could be applied when designing the structures by determining the bearing capacity of pipe-concrete elements exposed to stretching.

Author Biographies

Dmytro Yermolenko, Poltava National Technical Yuri Kondratyuk University Pershotravneva ave., 24, Poltava, Ukraine, 36011

Doctor of Technical Sciences, Professor

Department of structures from metal, wood and plastic

Volodymyr Pents, Poltava National Technical Yuri Kondratyuk University Pershotravneva ave., 24, Poltava, Ukraine, 36011

PhD, Associate Professor

Department of structures from metal, wood and plastic

Gennadi Golovko, Poltava National Technical Yuri Kondratyuk University Pershotravneva ave., 24, Poltava, Ukraine, 36011

PhD, Associate Professor

Department of Computer and information technology and systems

Sergіі Murza, Poltava National Technical Yuri Kondratyuk University Pershotravneva ave., 24, Poltava, Ukraine, 36011

PhD

Department of structures from metal, wood and plastic

References

  1. Deretic-Stojanovic, B. (1997). Calculation of stresses for Composite Structures. International Conference on Composite Construction “Conventional and Innovative”, ASCCS Seminar. Innsbruck, 864–865.
  2. Chihladze, Eh. D., Kislov, A. G., Sin'kovskaya, E. V. (2011). Ehksperimental'nye issledovaniya trubobetonnyh kolonn pri razlichnyh skhemah zagruzheniya osevoy nagruzkoy. Budivelni konstruktsii: Naukovo-tekhnichni poblemy suchasnoho zalizobetonu, 74, 217–221.
  3. Storozhenko, L. I., Yermolenko, D. A. (2010). Napruzheno-deformovanyi stan oserdia trubobetonnykh elementiv. Stroitel'stvo, materialovedenie, mashinostroenie, 56, 504–509.
  4. Pents, V. F., Turzhanskyi, P. V. (2005). Eksperymentalni doslidzhennia betonnoho yadra trubobetonnoho elementa pry yoho roboti na roztiah. Resursoekonomni materialy, konstruktsii, budivli ta sporudy, 13, 237–241.
  5. Li, G. C., Di, C. Y., Li, S. J. (2010). Finite Element Analysis of Middle Long Columns of High-Strength Concrete Filled Square Steel Tube with Inner CFRP Circular Tube under Axial Load. Advanced Materials Research, 163-167, 2199–2202. doi: 10.4028/www.scientific.net/amr.163-167.2199
  6. Yang, Y.-F., Han, L.-H. (2011). Behaviour of concrete filled steel tubular (CFST) stub columns under eccentric partial compression. Thin-Walled Structures, 49 (2), 379–395. doi: 10.1016/j.tws.2010.09.024
  7. Krishan, A. L. (2005). Steel pipe-concrete columns with preliminary pressed core, Applications, Opportunities. Proceedings of the International Conference held at the University of Dundee. Scotland, UK, 725–733.
  8. Ichinohe, Y., Matsutahi, T., Nakajanma, M., Ueda, H., Takada, K. (2009). Elasto-plastic behavior of concrete filled steel circular columns. The International Speciality Conference on Concrete Filled Steel Tubular Struktures. Fukuoka, 131–136.
  9. Maierhofer, C., Reinhardt, H.-W., Dobmann, G. (Eds.) (2010). Non-destructive evaluation of reinforced concrete structures. Vol. 1. Deterioration processes and standard test methods. Cambridge: Woodhead publishing limitid, 264.
  10. Bhandari, H. (2015). Analysis and Design of Steel and Composite Structures. Scitus Academics LLC, 269.
  11. Negahban, M. (2012). The Mechanical and Thermodynamical Theory of Plasticity. CRC Press, 784.
  12. Geniev, G. A., Kisyuk, V. N., Tyunin, G. A. (1974). Teoriya plastichnosti betona i zhelezobetona. Moscow: Stroyizdat, 316.
  13. Storozhenko, L. I., Plahotnyi, P. I., Chernyi, A. Ya. (1991). Raschet trubobetonnyh konstrukciy. Kyiv: Budivelnyk, 120.
  14. Pan, Y., Zhong, S. (2008). Discussion on the definition of strenght of concrete filled steel tubes. The International Speciality Conference on Concrete Filled Steel Tubular Struktures. Fukuoka, 7–12.
  15. Pents, V. F., Yermolenko, D. A., Turzhanskyi, P. V. (2006). Napruzheno-deformovanyi stan trubobetonnykh elementiv, shcho pratsiuiut na tsentralnyi roztiah. Mizhvidomchyi naukovo-tekhnichnyi zbirnyk naukovykh prats (budivnytstvo), 65, 228–235.

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Published

2017-08-22

How to Cite

Yermolenko, D., Pents, V., Golovko, G., & Murza, S. (2017). Development of a procedure for the evaluation of the stressed-deformed state of pipe-concrete elements that are stretched off-center. Eastern-European Journal of Enterprise Technologies, 4(7 (88), 4–9. https://doi.org/10.15587/1729-4061.2017.106844

Issue

Vol. 4 No. 7 (88) (2017): Applied mechanics

Section

Applied mechanics

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Copyright (c) 2017 Dmytro Yermolenko, Volodymyr Pents, Gennadi Golovko, Sergіі Murza

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