V. Kralovic scite author profile

Journal of Sound and Vibration, 329 (22), Additional Information:• AbstractThe reduction of flexural vibration in plate structures has been investigated using the recently reported acoustic black hole effect for flexural wave reflection in plates with the local thickness varying according to h(x) = x m and m ≥ 2. Since sharp edges of such plates (wedges) are always truncated before x = 0, the real reflection coefficients are relatively high, therefore the application of a small amount of damping is required to achieve large reductions in vibration amplitude. This paper presents a numerical model of a plate incorporating an acoustic black hole wedge, with predictions for vibration amplitudes. These are compared to equivalent experimental measurements for a range of applied damping layers. It is concluded that the above-mentioned power-law wedges can be used as effective vibration dampers in plate structures over a wide frequency range of interest.

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A new 3D Timoshenko finite beam element including non-uniform torsion of open and closed cross sections

Muŕın¹,

Aminbaghai

Kutiš³

et al. 2014

Engineering Structures

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3D Beam Finite Element Including Nonuniform Torsion

Muŕın¹,

Kutiš²,

Kralovic³

et al. 2012

Procedia Engineering

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Modelling and Simulation of SAW Sensor Using FEM

Kutiš

Gálik

Kralovic

et al. 2012

Procedia Engineering

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Mechatronic Model of Anti-lock Braking System (ABS)

Goga

Jediný

Kralovic

et al. 2011

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V. Kralovic

Damping of flexural vibrations in rectangular plates using the acoustic black hole effect

A new 3D Timoshenko finite beam element including non-uniform torsion of open and closed cross sections

3D Beam Finite Element Including Nonuniform Torsion

Modelling and Simulation of SAW Sensor Using FEM

Mechatronic Model of Anti-lock Braking System (ABS)

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