Deflection and strength of a sandwich beam with thin binding layers between faces and a core

Magnucki, K.; Smyczyński, M.; Jasion, P.

Artykuł - szczegóły

Tytuł artykułu

Deflection and strength of a sandwich beam with thin binding layers between faces and a core

Autorzy

Magnucki K. , Smyczyński M. , Jasion P.

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https://am.ippt.pan.pl/index.php/am

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Abstrakty

The subject of the paper is the analysis of deflection of a five-layer sandwich beam under bending. The mechanical and physical properties vary through the thickness of the beam and depend on the material of each layer, which are: the metal face, binding material (the glue) and metal foam core. The main aim of the paper is to present the analytical model of the five-layer beam and to compare the results of bending analysis obtained theoretically and numerically. In the paper, a mathematical model of the field of displacements, which includes a shear effect and a bending moment, is presented. The system of partial differential equations of equilibrium for the five-layer sandwich beam is derived on the basis of the principle of stationary total potential energy. The equations are analytically solved and the formula describing the deflection of the beam is obtained. The influence of the thickness and mechanical properties of the binding layer on the deflection of the beam under bending is analysed. The comparison of the results obtained in the analytical and numerical (FEM) analysis is shown in graphs and figures.

Słowa kluczowe

sandwich structure metal foam multi-layered beam bending

Wydawca

Instytut Podstawowych Problemów Techniki PAN

Czasopismo

Archives of Mechanics

Rocznik

2013

Tom

Vol. 65, nr 4

Strony

301–--311

Opis fizyczny

Bibliogr. 17 poz., rys. kolor.

Twórcy

autor

Magnucki K.

Institute of Applied Mechanics Poznań University of Technology Jana Pawła II 24 60-965 Poznań, Poland

autor

Smyczyński M.

mikolaj. smyczynski@put.poznan.pl

Institute of Applied Mechanics Poznań University of Technology Jana Pawła II 24 60-965 Poznań, Poland

autor

Jasion P.

Institute of Applied Mechanics Poznań University of Technology Jana Pawła II 24 60-965 Poznań, Poland

Bibliografia

1. F. J. Plantema, Sandwich construction, John Wiley&Sons: New York, London, Sydney, 1966.
2. H.G. Allen, Analysis and design of structural sandwich panels, Pergarnon Press: Oxford, London, Edinburgh, New York, Toronto, Sydney, Paris, Braunschweig, 1969.
3. J. R. Vinson, Sandwich structures, Applied Mechanics Reviews, ASME, 54, 3, 201-214, 2001.
4. J. Banhart, Manufacture, characterisation and application of cellular metals and metal foams, Progress in Material Science, 46, 559-632, 2001.
5. A.K. Noor, W.S. Burton, C. W. Bert, Computational models for sandwich panels and shells, Applied Mechanics Reviews, ASME, 49, 3, 155-199, 1996.
6. E.I. Grigolyuk, P.P. Chulkov, Stability and vibrations of three layers shells, Moscow, Mashinostroene (in Russian), 1973.
7. C. M. Wang, J.N. Reddy, K.H. Lee, Shear deformable beams and plates, Elsevier: Amsterdam, Laussane, New York, Oxford, Shannon, Singapore, Tokyo, 2000.
8. E. Carrera, Historical review of Zig-Zag theories for multilayered plates and shells, Applied Mechanics Reviews, 56, 3, 287-308, 2003.
9. P. Iaccarino, C. Leone, M. Durante, G. Caprino, A. Lamboglia, Effect of a thin soft core on the bending behavior of a sandwich with thick CFRP facings, Journal of Sandwich Structures and Materials, 13, 2, 159-175, 2010.
10. A. Chakrabarti, H.D. Chalak, Mohd. Ashraf Iqbal, Abdul Hamid Sheikh, A new FE model based on higher order zigzag theory for the analysis of laminated Sandwich beam with soft core, Composite Structures, 93, 2, 271-279, 2011.
11. C.A. Steeves, N.A. Fleck, Collapse mechanisms of sandwich beams with composite faces and a foam core, loaded in three-point bending. Part I: analytical models and minimum weight design, International Journal of Mechanical Sciences, 46, 4, 561-583, 2004.
12. Q.H. Qin, T. J. Wang, An analytical solution for the large deflections of a slender sandwich beam with a metallic foam core under transverse loading by a flat punch, Composite Structures, 88, 4, 509-518, 2009.
13. J.F. Raków, A.M. Waas, Size effects and the shear response of aluminium foam, Mechanics of Materials, 37, l, 69-82, 2005.
14. V. Birman, L.W. Byrd, Modeling and analysis of functionally graded materials and structures, Applied Mechanics Reviews, 60, 5, 195-216, 2007.
15. E. Magnucka-Blandzi, K. Magnucki, Effective design of a sandwich beam with a metal foam core, Thin-Walled Structures, 45, 4, 432-438, 2007.
16. K. Magnucki, P. Jasion, W. Szyc, M. Smyczynski, Strength and buckling of a sandwich beam with thin binding layers between faces and a metal foam core, The 2011 Worid Congress on Advances in Structural Engineering and Mechanics, Seoul, Korea 2011, 826-835, 2011.
17. D. Zenkert, Strength of sandwich beams with interface debondings, Composite Structures, 17, 4, 331 350, 1991.

Typ dokumentu

Bibliografia

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