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Applying a 3D Re-Entrant Auxetic Cellular Core to a Graphene Nanoplatelet–Reinforced Doubly Curved Structure: A Sound Transmission Loss Study

Mohammad Amin Ghafouri, M. Ghassabi, Roohollah Talebitooti

2023Journal of Engineering Mechanics10 citationsDOI

Abstract

Sound transmission loss (STL) can be augmented in buildings using graphene nanoplatelets (GPLs) and metamaterials. The present study established an analytical model grounded on the three-dimensional (3D) elasticity theory to predict STL in a doubly curved shell with a 3D re-entrant auxetic cellular core (3D-RACS) and GPLs as the top layer. The state space method was used to offer an analytical solution, where each part of the structure was divided into a number of layers and each layer into several sublayers. The stiffness matrix of the core was developed according to elastic properties such as Young’s modulus, shear modulus, and Poisson’s ratio out of the plane. The findings revealed that GPLs as the top layer had a tremendous impact on the structure’s performance. Furthermore, the effects of 3D-RACS and GPL parameters on the structure’s STL were investigated in the stiffness and mass control domains. Accordingly, the addition of the core material significantly affected high frequencies, particularly in the mass control domain. Finally, the results indicated that curvature and coincidence frequencies could be changed by optimizing 3D-RACS and GPL parameters.

Topics & Concepts

AuxeticsSound transmission classMaterials scienceStiffnessComposite materialTransmission lossAcousticsTransmission (telecommunications)MetamaterialHoneycomb structurePoisson's ratioStiffness matrixStructural engineeringComputer sciencePoisson distributionPhysicsEngineeringTelecommunicationsMathematicsStatisticsOptoelectronicsCellular and Composite StructuresAcoustic Wave Phenomena ResearchAdvanced Materials and Mechanics
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