J. Michalski scite author profile

In this paper, the dynamic behavior of a three-layered sandwich beam with a metal foam core is investigated. Outer layers of the sandwich beam are made of AlSi12 alloy and the core is metal porous foam made of AlSi12. Numerical analysis is made for different parameters of the coreaverage damping loss factor, densities, Young modulus, and Poisson's ratio of core foam. The simulations are used to determine the mechanical impedance for a sandwich beam with the applied harmonic load. Numerical calculations are made with the use of finite element method. The results imply that the auxetic core of the composite beam can have a great impact on the dynamic behavior (mobility) of the system. Furthermore, it appears that there are ranges of frequencies in which the mobility of the system can be minimized by using the auxetic foam core.

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Localised corrosion initiation and microstructural characterisation of an Al 2024 alloy with a higher Cu to Mg ratio

DeRose

Suter

Bałkowiec

et al. 2012

Corrosion Science

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Polypropylene nonwoven filter with nanosized ZnO rods: Promising hybrid photocatalyst for water purification

Colmenares

Kuna

Jakubiak

et al. 2015

Applied Catalysis B: Environmental

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Nanostructured Media to Improve the Performance of Fibrous Filters

Jackiewicz

Podgórski

Gradoń

et al. 2013

KONA

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J. Michalski

A cellular automaton model for predicting intergranular corrosion

Computational Analysis of the Mechanical Impedance of the Sandwich Beam with Auxetic Metal Foam Core

Localised corrosion initiation and microstructural characterisation of an Al 2024 alloy with a higher Cu to Mg ratio

Polypropylene nonwoven filter with nanosized ZnO rods: Promising hybrid photocatalyst for water purification

Nanostructured Media to Improve the Performance of Fibrous Filters

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