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A wave propagation study for porous metal foam beams resting on an elastic foundation

Farzad Ebrahimi, Ali Seyfi

2021Waves in Random and Complex Media15 citationsDOI

Abstract

The purpose of present investigation is to study propagation of flexural wave in porous metal foam beams resting on Winkler–Pasternak foundation based upon refined higher-order shear deformable beam theory. Moreover, different types of porosity distribution through the thickness direction are probed namely; uniform, symmetric and asymmetric. The Hamiltonian approach is implemented to catch motion equations of porous metal foam beams. Then, the obtained governing equations of porous metal foam are solved analytically. The influences of different parameters such as various types of porosity distribution, porosity coefficient, slenderness ratio, wave number and elastic foundation coefficients on the variation of wave frequency, escape frequency and phase velocity are covered and presented within the framework of a group of figures which can be observed in detail.

Topics & Concepts

PorosityMetal foamMaterials sciencePorous mediumWave propagationMechanicsFoundation (evidence)Shear (geology)Phase velocityComposite materialPhysicsOpticsHistoryArchaeologyCellular and Composite StructuresComposite Structure Analysis and OptimizationAcoustic Wave Phenomena Research
A wave propagation study for porous metal foam beams resting on an elastic foundation | Litcius