Desctruction of frame composite concrete slab that is off-center loaded

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The authors simulate non-uniform stress distribution in multilayer building envelope. Its layers, made of different kinds of concrete, are tightly coupled with each other. Such constructions are of significant practical interest because their heat insulation properties may be much better than the corresponding properties of uniform slabs of the same thickness (though their toughness is still sufficient). The authors state the problem about the distribution of equivalent and maximal principal stresses in such a slab. In the framework of this problem loads and kinematic constraints imposed on the body of interest are typical for industrial and civil buildings. Numerical simulation is provided with the aid of ANSYS finite element software package. The paper discusses the reasons for non-physical behaviour demonstrated by the stress after mesh refinement and proposes the way to fix this problem. Then the authors use the approach described to find a critical load causing destruction of the slab.

Sobre autores

Alexey Syromyasov

National Research Mordovia State University

Autor responsável pela correspondência
Email: syal1@yandex.ru
ORCID ID: 0000-0001-6520-0204

Ph.D. in Phys. and Math., Associate Professor, Department of Applied Mathematics, Differential Equations and Theoretical Mechanics

Rússia, Saransk

Yurii Makarov

National Research Mordovia State University

Email: makarov.yira75@mail.ru
ORCID ID: 0000-0002-6242-4138

Ph.D. in Engineering, Associate Professor, Department of Applied Mathematics, Differential Equations and Theoretical Mechanics

Rússia, Saransk

Vladimir Erofeev

Moscow State University of Civil Engineering

Email: erofeevvt@bk.ru
ORCID ID: 0000-0001-8407-8144

D. Sci. in Engineering, academic of Russian Academy of Architecture and Construction Sciences, Professor, Department of Construction Materials Science

Rússia, Moscow

Bibliografia

  1. V. D. Sizov, A. V. Pavlovskaya, “Efficient Multi-Layer Wall Panel”, Science and Technique, 21:5 (2022), 410–418. DOI: https://doi.org/10.21122/2227-1031-2022-21-5-410-418 (In Russ.).
  2. S. V. Fedosov, A. M. Ibragimov, L. Yu. Gnedina, “[Problems of three-layer building envelopes]”, Zhilishhnoe stroitel’stvo, 2012, no. 7, 9–12 (In Russ.).
  3. Yu. M. Bazhenov, E. A. Korol, V. T. Erofeev, E. A. Mitina, [Building envelopes using concrete with low heat conduction (basics of theory, methods of calculation and technological desigh)], Izdatel’stvo Associacii Stroitel’nyx Vuzov Publ., Moscow, 2008 (In Russ.), 320 p.
  4. Yu. V. Chinenkov, “[Calculation of ferroconcrete three-layer building envelopes made of lightweight concrete]”, Beton i zhelezobeton, 2007, no. 6, 7–11 (In Russ.).
  5. A. Moftakhari, C. Aghanajafi, A. Moftakhari Chaei Ghazvin, “Inverse heat transfer analysis of radiator central heating systems inside residential buildings using sensitivity analysis”, Inverse Problems in Science and Engineering, 25:4 (2017), 580–607. DOI: https://doi.org/10.1080/17415977.2016.1178258.
  6. K. Lakshmi, M. Keerthivas, “Damage diagnosis of high-rise buildings under variable ambient conditions using subdomain approach”, Inverse Problems in Science and Engineering, 29:13 (2021), 2579–2610. DOI: https://doi.org/10.1080/17415977.2021.1941922.
  7. L. I. Sedov, A course in continuum mechanics, 2, Wolters-Noordhoff Publ., Netherlands, 1971, 580 p.
  8. G. A. Geniev, V. N. Kissyuk, G. A. Tyupin, [The plasticity theory for concrete and ferroconcrete], Strojizdat Publ., Moscow, 1974 (In Russ.), 316 p.
  9. I. A. Birger, R. R. Mavlyutov, [Strength of materials], Nauka Publ., Moscow, 1986 (In Russ.), 560 p.

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Declaração de direitos autorais © Syromyasov A.O., Makarov Y.A., Erofeev V.T., 2024

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