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Investigation of free and forced vibration of GFRP corrugated bio-inspired sandwich beam with HSDT: Numerical and experimental study

Muthukumaran Gunasegeran, P. Edwin Sudhagar

2022Mechanics of Advanced Materials and Structures19 citationsDOI

Abstract

Sandwich structures benefited many industries, including aviation, automobile, and naval. The core of the sandwich plays a significant role in structural behavior. This work investigates the free and forced vibration behavior of GFRP corrugated bio-inspired sandwich beams with higher-order shear deformation theory (HSDT). Four different GFRP corrugated bioinspired core configurations are designed, fabricated, and tested using an alternative dynamic method to evaluate the complex shear modulus. The elastic properties of the face sheet for the corrugated bioinspired sandwich beam using the impulse excitation method (ASTM E1876). The user-defined MATLAB code is formulated to analyze the free and forced vibration of the corrugated bioinspired sandwich beam. Among various bioinspired composite sandwich beam configurations, CBIM01 produces the highest stiffness, followed by CBIM02, CBIM03, and CBIM04 because of the strain energy distribution. Pattern arrangement and rectangular strip in the bioinspired composite sandwich beam configurations significantly differ in the natural frequencies. Further, a parametric study of the sandwich beam for four different corrugated bioinspired cores and ply configurations is analyzed using HSDT.

Topics & Concepts

Structural engineeringMaterials scienceBeam (structure)VibrationStiffnessFibre-reinforced plasticComposite materialComposite numberSandwich-structured compositeCore (optical fiber)EngineeringAcousticsPhysicsComposite Structure Analysis and OptimizationMechanical stress and fatigue analysisSilk-based biomaterials and applications