This work aims at modelling passive damping in structures made of composites with embedded resistively shunted piezoelectric ceramic fibres. To this end, a 3D material model is implemented in the finite element (FE) code ABAQUS. Academical test cases as well as a structural case study are presented
This paper presents the combined micromechanics analysis and finite element modeling of the electrom...
Recent studies showed that the active piezoelectric structural fiber (PSF) composites may achieve si...
ABSTRACT: A computational methodology is developed for the prediction of passive damping in composit...
Limiting structural response by increasing damping with passive devices it is attractive because the...
This report investigates the possibility of simulating a fiber composite plate with embedded piezoel...
This report investigates the possibility of simulating a fiber composite plate with embedded piezoel...
This report investigates the possibility of simulating a fiber composite plate with embedded piezoel...
International audienceIn the present paper, the finite element modeling of vibrating structures comb...
The objective of this work is to present the finite element modeling of laminate composite plates wi...
The objective of this work is to present the finite element modeling of laminate composite plates wi...
ABSTRACT: This article presents a successful extension of passive R–L shunt damping to piezoelectric...
The waves propagating within complex smart structures are hereby computed by employing a wave and fi...
The paper presents an approach to effective modeling of active multilayer thin composite plate in fi...
This work focuses on the finite element modeling procedure and the robust-optimal design of composit...
Abstract. Vibration control using combination of piezoelectric material and electrical circuits can ...
This paper presents the combined micromechanics analysis and finite element modeling of the electrom...
Recent studies showed that the active piezoelectric structural fiber (PSF) composites may achieve si...
ABSTRACT: A computational methodology is developed for the prediction of passive damping in composit...
Limiting structural response by increasing damping with passive devices it is attractive because the...
This report investigates the possibility of simulating a fiber composite plate with embedded piezoel...
This report investigates the possibility of simulating a fiber composite plate with embedded piezoel...
This report investigates the possibility of simulating a fiber composite plate with embedded piezoel...
International audienceIn the present paper, the finite element modeling of vibrating structures comb...
The objective of this work is to present the finite element modeling of laminate composite plates wi...
The objective of this work is to present the finite element modeling of laminate composite plates wi...
ABSTRACT: This article presents a successful extension of passive R–L shunt damping to piezoelectric...
The waves propagating within complex smart structures are hereby computed by employing a wave and fi...
The paper presents an approach to effective modeling of active multilayer thin composite plate in fi...
This work focuses on the finite element modeling procedure and the robust-optimal design of composit...
Abstract. Vibration control using combination of piezoelectric material and electrical circuits can ...
This paper presents the combined micromechanics analysis and finite element modeling of the electrom...
Recent studies showed that the active piezoelectric structural fiber (PSF) composites may achieve si...
ABSTRACT: A computational methodology is developed for the prediction of passive damping in composit...
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