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Structural analog for sandwich panels with finite deflections

Published online by Cambridge University Press:  04 July 2016

H. H. Al-Qarra
H. H. Al-Qarra*
Affiliation:
SDC, PO Box 87132, Riyadh 11642, Saudi Arabia
*
*Formerly, Department of Civil Engineering, University of Southampton.
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Abstract

The solution of sandwich plate problems by the framework method is proposed and the basic elements of the method used are reviewed. The technique is demonstrated by application to a simple framework analog for rectangular sandwich panels with very thin faces and an antiplane core. A number of illustrative examples involving small and large deflections are solved.

Type
Research Article
Information
The Aeronautical Journal , Volume 94 , Issue 933 , March 1990 , pp. 99 - 106
Copyright
Copyright © Royal Aeronautical Society 1990 

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References

1. Boroch, H. and Kania, J. Metallic sandwich plate with skeleton core. Rozprawy Inzynierskie Eng Trans, Polska Akademia Nauk Instytut Podstawowych Problemow Techniki, 22, (1), pp 6984.Google Scholar
2. Pryor, C. and Barker, R. A finite element analysis including transverse shear effects for application to laminated plates. AIAA J, 9, (5), pp 912917.Google Scholar
3. Mawenya, A. and Davis, J. Finite element bending analysis of multilayer plates. IJNME, 1974, 8, pp 215225.Google Scholar
4. Allen, H. and Al-Qarra, H. H. The geometrically nonlinear analysis of transversely loaded membranes. Int J Mech Sci, 1986, 28, (7), pp 455461.Google Scholar
5. Hrennikoff, A. Solution of problems of elasticity by the framework method. J Appl Mech ASME, 1941, 8, (4), pp 169175.Google Scholar
6. McHenry, D. A lattice analogy for the solution of stress problems. J Inst Civ Eng, 1943, (2), pp 5982.Google Scholar
7. McCormic, C. Plane-stress analysis. ASCE, 1963, 89, ST4, pp 3754.Google Scholar
8. Yettram, A. and Hussein, H. Plane framework method for plates in extension. ASCE, 1966, 92, EMI, pp 157168.Google Scholar
9. Hrennikoff, A. Plane-stress and bending of plates by the method of articulated framework. Thesis presented at Massachusetts Institute of Technology in partial fulfilment of requirements for the degree of doctor of science in civil engineering, 1940.Google Scholar
10. Yettram, A. and Hussein, H. A grid-framework method for plates in flexure. ASCE, 1965, 91, EM3, pp 5364.Google Scholar
11. Ha, H. Framework analog for circular plate bending. ASCE, 1977, 103, ST7, pp 14791483.Google Scholar
12. Tezcan, S. Nonlinear analysis of thin plates by the framework method. AIAA J, 1967, 5, (10), pp 18901892.Google Scholar
13. Yettram, A. and Robbins, K. Space-framework method for three-dimensional solids, ASCE, 1967, 93, EM6, pp 2136.Google Scholar
14. Hrennikoff, A. and Gantayat, A. Three-dimensional bar cell for elastic stress analysis. ASCE, 1970, 96, EM3, pp 313326.Google Scholar
15. Fletcher, R. and Reeves, C. Functional minimisation by the conjugate gradients. Compos J, 1964, 7, pp 149153.Google Scholar
16. Tezcan, S. Application of matrix algebra to problems of plane stress, plane strain, bending of plates and cylindrical shells, Proc. 3rd International Kolloqmum uber anwendungen der mathematik in den Ingenieurwissenschaften (Buck und Kunstkdruckere, Johannes Keipert, Weimar, Germany, 1965, Heft 5/6, pp 446455.Google Scholar
17. Al-Qarra, H. H. The geometrically nonlinear analysis of sandwich panels. PhD. thesis, Department of Civil Engineering, University of Southampton, 1986.Google Scholar
18. Allen, H. Analysis and design of structural sandwich panels. Permagon Press, Oxford, 1969.Google Scholar
19. Plantema, F. The bending and buckling of sandwich beams, plates and shells. John Wiley and Sons, London, 1966.Google Scholar