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Bending and buckling of a metal seven-layer beam with a lengthwise corrugated main core – comparative analysis with the sandwich beam

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The subject of analytical investigations is a metal seven-layer beam, a plate band with a lengthwise trapezoidal corrugated main core and two crosswise trapezoidal corrugated cores of faces. The hypothesis of deformation of normal to the middle surface of the beam after bending is formulated. Equations of equilibrium are derived based on the theorem of mini- mum total potential energy. The equations are analytically solved. Three point bending and buckling for axially compression of the simply supported beam are theoretically studied. The deflection and the critical axial force are determined for different values of the trapezoidal corrugation pitch of the main core. Moreover, an adequate model of the sandwich beam with steel foam core is formulated. The deflection and the critical axial force are determined for this sandwich beam. The results studied of the seven layer beam and the adequate sandwich beam are compared and presented in tables and figures.
Rocznik
Strony
41--53
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
  • Poznan University of Technology, Institute of Mathematics, Poznań, Poland
autor
  • Poznan University of Technology, Institute of Applied Mechanics, Poznań, Poland
Bibliografia
  • 1. Allen H.G., 1969, Analysis and Design of Structural Sandwich Panels, Pergamon Press, Oxford, London, Edinburgh, New York, Toronto, Sydney, Paris, Braunschweig
  • 2. Ashby M.F., Evans A., Fleck N.A., Gibson L.J., Hutchinson J.W., Wadley H.N.G., 2000, Metal Foams, A Design Guide, Butterworth-Heinemann, An Imprint of Elsevier
  • 3. Carrera E., 2003, Historical review of Zig-Zag theories for multi-layered plates and shells, Applied Mechanics Reviews, 56, 3, 287-308
  • 4. Carrera E., Brischetto S., 2009, A survey with numerical assessment of classical and refined theories for the analysis of sandwich plates, Applied Mechanics Reviews, 62, 1, 010803
  • 5. Cheon Y.-J., Kim H.-G., 2015, An equivalent plate model for corrugated-core sandwich panels, Journal of Mechanical Science and Technology, 29, 3, 1217-1223
  • 6. Kazemahvazi S., Zenkert D., 2009, Corrugated all-composite sandwich structures. Part 1: Modeling, Composite Science and Technology, 69, 7/8, 913-919
  • 7. Lewinski J., Magnucka-Blandzi E., Szyc W., 2015, Determination of shear modulus of elasticity for thin-walled trapezoidal corrugated cores of seven-layer sandwich plates, Engineering Transactions, 63, 4, 421-437
  • 8. Magnucka-Blandzi E., 2011, Mathematical modelling of a rectangular sandwich plate with a metal foam core, Journal of Theoretical and Applied Mechanics, 49, 2, 439-455
  • 9. Magnucka-Blandzi E., 2012, Displacement models of sandwich structures (in Polish), [In:] Strength and Stability Sandwich Beams and Plates with Aluminium Foam Cores, K. Magnucki, W. Szyc (Eds.), Pub. House of Poznan University of Technology, Poznan, 109-120
  • 10. Magnucka-Blandzi E., Magnucki K., 2014, Transverse shear modulus of elasticity for thinwalled corrugated cores of sandwich beams, Theoretical study, Journal of Theoretical and Applied Mechanics, 52, 4, 971-980
  • 11. Magnucka-Blandzi E., Magnucki K., Wittenbeck L., 2015, Mathematical modelling of shearing effect for sandwich beams with sinusoidal corrugated cores, Applied Mathematical Modelling, 39, 2796-2808
  • 12. Magnucki K., Magnucka-Blandzi E., Wittenbeck L., 2016, Elastic bending and buckling of a steel composite beam with corrugated main core and sandwich faces – Theoretical study, Applied Mathematical Modelling, 40, 1276-1286
  • 13. Noor A.K., Burton W.S., Bert C.W., 1996, Computational models for sandwich panels and shells, Applied Mechanics Reviews, 49, 3, 155-199
  • 14. Seong D.Y., Jung C.G., Yang D.Y., Moon K.J., Ahn D.G., 2010, Quasi-isotropic bending responses of metallic sandwich plates with bi-directionally corrugated cores, Materials and Design, 31, 6, 2804-2812
  • 15. Smith B.H., Szyniszewski S., Hajjar J.F., Schafer B.W., Arwade S.R., 2012, Steel foam for structures: A review of applications, manufacturing and material properties, Journal of Constructional Steel Research, 71, 1-10
  • 16. Szyniszewski S., Smith B.H., Hajjar J.F., Schafer B.W., Arwade S.R., 2014, The mechanical properties and modelling of a sintered hollow sphere steel foam, Materials and Design, 54, 1083-1094
  • 17. Ventsel E., Krauthammer T., 2001, Thin Plates and Shells, Theory, Analysis and Applications, Marcel Dekker, New York, Basel
  • 18. Vinson JR., 2001, Sandwich structures, Applied Mechanics Reviews, 54, 3, 201-214
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ca637d43-7fad-4b48-9068-f97f36293bc3
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