Simulation and Analysis of Sandwich Panels Free Vibration with Corrugated Core Based on Galerkin Method
Subject Areas :
Analytical and Numerical Methods in Mechanical Design
Gholamreza Banadcooki
1
,
J. RezaeiPazhand
2
1 - Faculty of Industrial and Mechanical Engineering, Islamic Azad University, Qazvin Branch, Qazvin, Iran
2 - Faculty of Engineering, Ferdowsi University, Mashhad, Iran
Received: 2022-09-21
Accepted : 2022-09-21
Published : 2022-06-01
Keywords:
Free vibrations,
Sandwich structures,
Corrugated core,
Element-free Galerkin methods,
Abstract :
This paper aims to evaluate sandwich panels' free vibration with corrugated core by Element-free Galerkin methods and based on first order shear deformation theory (FSDT) investigated. The sandwich panels' free vibration with corrugated core consist of two sheets above and below the panels, and a corrugated core in middle of these panels. The core equals to orthotropic sheet and the two panels equal to isotropic sheet. Dynamic equations of the members are obtained through first order shear deformation theory. The present research applies Galerkin numerical elementless method to solve equations of the problems. This method uses the functions of minimum moving squares. The model is simulated in cosmos software; the results are compared with the results of present papers, and show the accuracy of the method applied in the present paper.
References:
Rao, "Shear buckling of corrugated composite panels", Composite structures, Vol. 8, No. 3, pp. 207-220, (1987)
Heder, "Buckling of sandwich panels with different boundary conditions—a comparison between FE-analysis and analytical solutions", Composite structures, Vol. 19, No. 4, pp. 313-332, (1991).
L. Ko, R. H. Jackson," Compressive and shear buckling analysis of metal matrix composite sandwich panels under different thermal environments", Composite Structures, Vol. 25, No. 1, pp. 227-239, (1993).
Yan, B. Yu, B. Han, C. Chen ,Q. Zhang, T. Lu, "Compressive strength and energy absorption of sandwich panels with aluminium foam-filled corrugated cores", Composites Science and Technology, Vol. 86, pp. 142-148,(2013).
Rahmani, G.H. Rahimi, "Flexural behavior investigation of sandwich structures with composite skins and corrgaed composite and foam core",M. Sc thesis, Department of Mechanical engineering, Tarbiat Modares University, Tehran, (2012).
Zhang, P. Supernak, S. Mueller-Alander, C. H. Wang," Improving the bending strength and energy absorption of corrugated sandwich composite structure", Materials & Design, Vol. 52, pp. 767-773, (2013).
Reany, J. L. Grenestedt," Corrugated skin in a foam core sandwich panel",Composite Structures, Vol. 89, No. 3, pp. 345-355, (2009).
Belytschko, Y. Y. Lu, L. Gu," Element-free Galerkin methods",International Journal for Numerical Methods in Engineering, Vol. 37, No. 2,pp. 229-256, (1994).
Dolbow, T. Belytschko, "An introduction to programming the meshless Element FreeGalerkin method", Archives of Computational Methods in Engineering, Vol. 5, No. 3, pp. 207-241, (1998).
R. Liu, Y. T. Gu, "An Introduction to Meshfree Methods and Their Programming": Springer London, Limited, (2005).
Peng LX, LiewKM, Kitipornchai S. "Analysis of stiffened corrugated plates based on the FSDT via the meshfree method".IntJMechSci, vol. 49:pp.364–78,(2007).
Liew KM, PengLX, KitipornchaiS. "Nonlinear analysis of corrugated plates using a FSDT and a meshfree met od".ComputMethodsApplMechEng vol.196,pp.2358–76,(2007).
Liew KM, PengLX, KitipornchaiS."Buckling analysis of corrugated plates using a mesh-free Galerkinmethodbased on the first-order shear deformation theory". ComputMech .vol.38pp.61–75, (2006).
Reddy JN. Theory and analysis of elastic plates, London, Taylor & Francis, (1999).
