Charlie Bricault scite author profile

Charlie Bricault

3Publications

13Citation Statements Received

61Citation Statements Given

How they've been cited

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Affiliations

Le Mans Université, IRT Jules Verne

Publications

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Multimodal reduction of acoustic radiation of thin plates by using a single piezoelectric patch with a negative capacitance shunt

et al. 2019

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The ability of a single piezoelectric patch with a single negative capacitance shunt for the multimodal vibration damping is used in this work to drastically reduce the acoustic radiation of a vibrating plate. With a geometry fixed, the elastic properties can be controlled using the resistance and the negative capacitance of the shunt: using a value of the negative capacitance close to the instability domain of the circuit, the stiffness can be placed in the softening region of the system, while the resistance tunes both the stiffness and losses. By means of an optimal design, several modes with non-zero electromechanical coupling factors can be simultaneously damped. As a consequence at these frequencies the acoustic radiation of the plate is drastically decreased. The results open prospects to tackle the vibration and acoustic problems in an industrial context.

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Vibration isolation and damping using a piezoelectric flextensional suspension with a negative capacitance shunt

Billon

Montcoudiol

Aubry³

et al. 2020

Mechanical Systems and Signal Processing

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Evidence of multimodal vibration damping using a single piezoelectric patch with a negative capacitance shunt

Romero‐García

Bricault

Pézerat

et al. 2017

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In this work, a piezoelectric patch shunted with a negative capacitance circuit has been used to simultaneously damp several modes of a square aluminum plate at low frequencies. The active nature of such electromechanical system leads to regions of instabilities in which the highest vibration attenuation performance appears in the softening region. Once the geometry is fixed, the system has two degrees of freedom, dominated by the electrical parameters of the circuit: the resistance and the negative capacitance. We tune both the value of the negative capacitance, in order to place the structure close to the instability in the softening region, and the resistance of the circuit in such that control the losses of the system. This work shows an optimal design to simultaneously damp several modes with non-zero electromechanical coupling factors using a single shunted patch at low frequencies. The problem is solved numerically and tested experimentally with good agreement. The results show the possibility of controlling the modal response of the system, opening prospects to improve the acoustic comfort with systems using piezoelectric shunted damping circuits with small additional mass with a high tunability by only adjusting the properties of the shunt.

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