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Finite element analysis of dynamic properties of thermally optimal two-phase composite structure

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
Symposium “Vibrations In Physical Systems” (26 ; 04-08.05.2014 ; Będlewo koło Poznania ; Polska)
Języki publikacji
EN
Abstrakty
EN
This paper presents modelling and a FEM analysis of dynamic properties of a thermally optimal two-phase composite structure. Simulations were provided for 2D models. At the first step, topology optimization was performed, where an internal energy was minimized. At the second step, analysis of dynamic properties was executed. Calculations allowed to determine eigenfrequencies and the mode shape of the structure. Solid isotropic material with penalization (SIMP) model was used to find the optimal solution. The optimization algorithm was based on SNOPT method and Finite Element Method.
Rocznik
Tom
Strony
203--210
Opis fizyczny
Bibliogr. 14 poz., il.
Twórcy
  • Institute of Applied Mechanics, Poznan University of Technology, ul. Jana Pawla II 24, 60-965 Poznan, Poland
autor
  • Institute of Applied Mechanics, Poznan University of Technology, ul. Jana Pawla II 24, 60-965 Poznan, Poland
Bibliografia
  • 1. Y. Wang, D. J. Inman, Finite element analysis and experimental study on dynamic properties of a composite beam with viscoelastic damping, Journal of Sound and Vibration, 332 (2013) 6177-6191.
  • 2. E.J. Sapountzakis, Dynamic analysis of composite steel–concrete structures with deformable connection, Computers and Structures, 82 (2004) 717-729.
  • 3. Q. Chen, Y.W. Chan, Integral finite element method for dynamical analysis of elastic-viscoelastic composite structures, Computers and Structures, 74 (2000) 51-64.
  • 4. M. D. Rao, R. Echempati, S. Nadella, Dynamic analysis and damping of composite structures embedded with viscoelastic layers, Composites Part B, 28B (1997) 547-554.
  • 5. M. Meunier, R. A. Shenoi, Dynamic analysis of composite sandwich plates with damping modelled using high-order shear deformation theory, Composite Structures, 54 (2001) 243-254.
  • 6. M. Assarar, A. E. Mah, J. M. Berthelot, Evaluation of the dynamic properties of PVC foams under flexural vibrations, Composite Structures, 94 (2012) 1919-1931.
  • 7. I. K. Oh, Dynamic characteristics of cylindrical hybrid panels containing viscoelastic layer based on layerwise mechanics, Composites: Part B, 38 (2007) 159-171.
  • 8. M.P. Bendsøe, O. Sigmund, Topology Optimization Theory, Methods, and Applications, Springer 2003.
  • 9. P.E. Gill, W. Murray, M.A. Saunders, SNOPT: An SQP Algorithm for Large-Scale Constrained Optimization, SIAM REVIEW, 47(1) (2005) 99-131.
  • 10. B. Lautrup, Physics of Continuous Matter, Exotic and Everyday Phenomena in the Macroscopic World, IOP 2005.
  • 11. O. C. Zienkiewicz, R. L. Taylor, The Finite Element Method, Volume 2, Solid Mechanics, Butterworth-Heinmann 2000.
  • 12. S. Wiśniewski, T. S. Wiśniewski, Heat Transfer (in Polish: Wymiana ciepła), WNT 2000.
  • 13. Strek T., Jopek H., Maruszewski B. T., Nienartowicz M., Computational analysis of sandwich-structured composites with an auxetic phase, Phys. Status Solidi (b)., Vol. 251, Issue 2, DOI: 10.1002/pssb.201384250, (2014) 354-366,
  • 14. M. Nienartowicz, T. Strek, Topology optimization of the effective thermal properties of two-phase composites, Recent Advances in Computational Mechanics, T. Łodygowski, J. Rakowski, P. Litewka (Red.), CRC Press (2014) 223-236.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c0a8ac06-19a0-4786-b858-46b67ba39b55
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