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THE RHEOLOGICAL RESPONSE OF THE CONCRETE SLAB FOUNDED ON THE VISCOELASTIC SUBSOIL

Norbert Jendzelovsky, Norbert Jendzelovsky, Lubos Hrustinec, Lubos Hrustinec, Lubos Hrustinec, Jozef Sumec

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b12/s2.121View metrics

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Title
THE RHEOLOGICAL RESPONSE OF THE CONCRETE SLAB FOUNDED ON THE VISCOELASTIC SUBSOIL
Authors
Norbert Jendzelovsky, Norbert Jendzelovsky, Lubos Hrustinec, Lubos Hrustinec, Lubos Hrustinec, Jozef Sumec
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-08-7
Language
en
Publication type
Conference Paper
Keywords
References30
  1. Beňa, J. & Kossaczký, E. Bases Theory of Modeling. Publishing of SAS VEDA, Slovakia, 1981, (in Slovak).

  2. Brilla, J. Linear Viscoelastic Bending of Anisotropic Plates. ZAMM, Germany, Son der heft, XLVIII, 1968. Fig. 4.6 Vertical normal stresses z in subsoil of circular foundation at the time t =  (after the end of creep effect in concrete and soil) z ( kPa ) 14th SGEM GeoConference on Science and Technologies in Geology, Exploration and Mining

  3. Čajka, R. Comparison of the Calculated and Experimentally Measured Values of Settlement and Stress State of Concrete Slab on Subsoil. Proc. of the 3rd Int . Conference on Civil Engineering and Transportation, ICCET 2013 Kunming, China; 2013, vol. 501, pp. 867-876, ISBN 978-303835005-7.

  4. Čajka, R. & Burkovič, K. & Buchta, V. Foundation Slab in Interaction with Subsoil. Proc. of the 2nd Global Conference on Civil, Structural and Environmental Engineering, GCCSEE 2013, China, 2013, vol. 838, pp. 375-380, ISBN 978-303785926-1.

  5. Ďuraj, J. Interaction of Circular Foundation Plate with Subsoil Considering the Effect of Creep of Concrete and Soil. Proc. of the 7 th Int. Scientific Conference – Section Structural Mechanics, Slovakia, Košice, 2002, pp. 42–48, (in Slovak).

  6. Hruštinec, Ľ. Numerical Analysis of the Interaction between Shallow (Square, Circular, Strip) Foundations and Subsoil. Journal of Civil Engineering and Architecture, USA, vol. 7/issue 7, p. 875-88 6, 2013, ISSN 1934-7359.

  7. Jendželovský, N. Circular Plate on the Elastic Subsoil. Proc. of the Int. Conference “XI. Ansys User's Meeting”, Czech Republic, Znojmo, 2003, (in Slovak).

  8. Kollár, P. Viscolelastic Contact Problems of Circular Plates and Ha lf-space. Building Research Journal, Slovakia, vol. 49/issue 2, 2001.

  9. Kormaníková, E. & Kotrasová, K. & Šejnoha, M. et al. Selected Chapters of Mechanics of Composite Materials Part II and Part III. Dere Publishing Hous, USA, Massachusetts, 2013, ISBN 978-1-939757-01-2.

  10. Kotrasová, K. & Kormaniková, E. The Ground Plate on the Winkler Foundation. Proc. of the Int. Conference "Modeling in Mechanics", Czech Republic, VŠB TU Ostrava, 2009, pp. 1-6, ISBN 9788024820163.

  11. Lichardus, S. & Sumec, J. Analysis of Structural Elements of Various Dimensions of Composite Structural Viscoelastic Materials. Internal Research Report III-8-2/3.5, Institute of Structural and Architecture of SAS, Slovakia, 1978, (in Slovak).

  12. Mistríková, Z. Influence of Creep Effect on the Deformation and Stresses of Plate on Elastic Subsoil. Proc. of the Int. Conference “New Trend in Statics a Dynamics of Buildings”, Slovakia, Bratislava, 2004.

  13. Prokopovitsch, I.E. & Zedgenidze, V.A. Prikladnaja teorija polzučesti. Strojizdat, Russia, 1980, (in Russian).

  14. Šoltész, J. & Sedlák, J. & Makovička, D. & Tengler, M. Seismic Capacity UP- Grade of Fire Station Building at Mochovce Nuclear Power Plant . Proc. of the Concrete Days, Czech Republic, Hradec Králové, 2013, pp. 77-82, ISBN 978-80-87158-34-0.

  15. Šoltész, J. & Binder I. & Ecker M. Rehabilitation of Industrial Structures in the NPP Bohunice in Slovakia Due to Increased Site Seismic Hazard. Proc. of the 2nd FIB Congress, Italy, 2006, pp. 652-654.

  16. Beňa, J. & Kossaczký, E. Bases Theory of Modeling. Publishing of SAS VEDA, Slovakia, 1981, (in Slovak).

  17. Brilla, J. Linear Viscoelastic Bending of Anisotropic Plates. ZAMM, Germany, Son der heft, XLVIII, 1968. Fig. 4.6 Vertical normal stresses z in subsoil of circular foundation at the time t =  (after the end of creep effect in concrete and soil) z ( kPa ) 14th SGEM GeoConference on Science and Technologies in Geology, Exploration and Mining

  18. Čajka, R. Comparison of the Calculated and Experimentally Measured Values of Settlement and Stress State of Concrete Slab on Subsoil. Proc. of the 3rd Int . Conference on Civil Engineering and Transportation, ICCET 2013 Kunming, China; 2013, vol. 501, pp. 867-876, ISBN 978-303835005-7.

  19. Čajka, R. & Burkovič, K. & Buchta, V. Foundation Slab in Interaction with Subsoil. Proc. of the 2nd Global Conference on Civil, Structural and Environmental Engineering, GCCSEE 2013, China, 2013, vol. 838, pp. 375-380, ISBN 978-303785926-1.

  20. Ďuraj, J. Interaction of Circular Foundation Plate with Subsoil Considering the Effect of Creep of Concrete and Soil. Proc. of the 7 th Int. Scientific Conference – Section Structural Mechanics, Slovakia, Košice, 2002, pp. 42–48, (in Slovak).

  21. Hruštinec, Ľ. Numerical Analysis of the Interaction between Shallow (Square, Circular, Strip) Foundations and Subsoil. Journal of Civil Engineering and Architecture, USA, vol. 7/issue 7, p. 875-88 6, 2013, ISSN 1934-7359.

  22. Jendželovský, N. Circular Plate on the Elastic Subsoil. Proc. of the Int. Conference “XI. Ansys User's Meeting”, Czech Republic, Znojmo, 2003, (in Slovak).

  23. Kollár, P. Viscolelastic Contact Problems of Circular Plates and Ha lf-space. Building Research Journal, Slovakia, vol. 49/issue 2, 2001.

  24. Kormaníková, E. & Kotrasová, K. & Šejnoha, M. et al. Selected Chapters of Mechanics of Composite Materials Part II and Part III. Dere Publishing Hous, USA, Massachusetts, 2013, ISBN 978-1-939757-01-2.

  25. Kotrasová, K. & Kormaniková, E. The Ground Plate on the Winkler Foundation. Proc. of the Int. Conference "Modeling in Mechanics", Czech Republic, VŠB TU Ostrava, 2009, pp. 1-6, ISBN 9788024820163.

  26. Lichardus, S. & Sumec, J. Analysis of Structural Elements of Various Dimensions of Composite Structural Viscoelastic Materials. Internal Research Report III-8-2/3.5, Institute of Structural and Architecture of SAS, Slovakia, 1978, (in Slovak).

  27. Mistríková, Z. Influence of Creep Effect on the Deformation and Stresses of Plate on Elastic Subsoil. Proc. of the Int. Conference “New Trend in Statics a Dynamics of Buildings”, Slovakia, Bratislava, 2004.

  28. Prokopovitsch, I.E. & Zedgenidze, V.A. Prikladnaja teorija polzučesti. Strojizdat, Russia, 1980, (in Russian).

  29. Šoltész, J. & Sedlák, J. & Makovička, D. & Tengler, M. Seismic Capacity UP- Grade of Fire Station Building at Mochovce Nuclear Power Plant . Proc. of the Concrete Days, Czech Republic, Hradec Králové, 2013, pp. 77-82, ISBN 978-80-87158-34-0.

  30. Šoltész, J. & Binder I. & Ecker M. Rehabilitation of Industrial Structures in the NPP Bohunice in Slovakia Due to Increased Site Seismic Hazard. Proc. of the 2nd FIB Congress, Italy, 2006, pp. 652-654.

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