Torsion of carbon fiber composite pyramidal core sandwich plates |
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Authors: | Ming Li Linzhi Wu Li Ma Jian Xiong Zhengxi Guan |
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Affiliation: | 1. No. 201 Faculty, Xi’an Research Institute of High-tech, Xi’an 710025, PR China;2. Center for Composite Materials, Harbin Institute of Technology, Harbin 150001, PR China |
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Abstract: | A combined theoretical, experimental and numerical investigation of carbon fiber composite pyramidal core sandwich plates subjected to torsion loading is conducted. Pyramidal core sandwich plates are made from carbon fiber composite material by a hot compression molding method. Based on the Classical Laminate Plate Theory and Shear Deformation Theory, the equivalent mechanical properties of laminated face-sheet are obtained; based on a homogenization concept combined with a mechanical of materials approach, the equivalent in-plane and out-of-plane shear moduli of pyramidal core are obtained. A torsion solution is derived with Prandtl stress function and can be used in the sandwich plate with orthotropic face-sheets and orthotropic core. The influences of material properties and geometrical parameters on the equivalent torsional stiffness are explored. In order to verify the accuracy of the analytical torsion solution, experimental tests of sandwich plate samples with different face-sheet thicknesses are conducted and two types of finite element models are developed. Good agreements among analytical predictions, finite element simulations and experimental evaluations are achieved, which prove the validity of the present derivation and simulation. The proposed method could also be applied in design applications and optimization of the pyramidal core sandwich structures. |
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Keywords: | Sandwich Pyramidal core Composite Torsion |
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