Smart piezoelectric Fibre composites

Nelson, Luke

doi:10.1179/026708302225007448

Cited by 84 publications

(44 citation statements)

References 41 publications

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“…Fine scale piezoelectric lead zirconate titanate (PZT) fibres having diameters less than 250 μm are finding uses in ultrasonic transducers [1] and novel geometry composites consisting of PZT fibres with interdigitated surface electrodes [2]. Such composites, as shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

Optimisation of interdigitated electrodes for piezoelectric actuators and active fibre composites

et al. 2006

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The optimisation of the interdigitated electrode (IDE) design for active fibre composites was performed using finite element analysis. The effect of the IDE geometry (electrode width and spacing) and electroceramic substrate thickness on the developed strain for bulk PZT substrates was modelled. The modelling results show that the highest strain is generated when the electrode width equals half the substrate thickness and for thin substrates the electrode finger spacing can be reduced to enable lower driving voltages. Approximately 80% of the maximum d 33 strain can be achieved with an electrode separation to substrate thickness ratio greater than 4. The results present simple coherent guidelines for the optimisation of electrode geometry for piezoelectric actuators and active fibre composites.

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Section: Introductionmentioning

confidence: 99%

Optimisation of interdigitated electrodes for piezoelectric actuators and active fibre composites

et al. 2006

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“…Equation (1) requires both components to have similar Poisson's ratios, which is valid because PZT-5A n 0.38 and epoxy n 0.37 [18,19]. As the load is increased, the composite strain will reach the failure strain (1 Ã f ) of the brittle fibres, which will be the first component to fail ( Fig.…”

Section: Failure Of Active Compositesmentioning

confidence: 99%

“…AFCs were developed by the Active Materials and Structures Laboratory and patented in 1994 [8]. Since their initial development, advances have been made in many areas including fibre manufacture, matrix materials, electrode design, manufacturing techniques, and composite modelling [9,10]. A typical AFC configuration is shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

Failure and volume fraction dependent mechanical properties of composite sensors and actuators

Bowen

Dent

Nelson

et al. 2006

Proceedings of the Institution of Mechanical Engineers, Part C:

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Composite actuators and sensors manufactured by combining a ferroelectric ceramic such as lead zirconate titanate and a passive phase such as a polymer are used in a variety of applications including SONAR, vibration damping, change of structural shape (morphing), and structural health monitoring. The composite route provides specific advantages, including tailored piezoelectric response, high strain, a degree of flexibility, and increased damage tolerance compared with conventional dense monolithic ceramic materials. For piezoelectric fibre composites, where fine-scale brittle ceramic fibres of 40 -800 mm diameter are introduced into a ductile polymer matrix, the composite strength and failure mechanism ultimately depend on the mechanical properties of each phase and their volume fraction. This article examines the mechanical properties of piezoelectric fibres and the matrix phase and discusses the possible influence of fibre volume fraction on mechanical properties and failure mechanism of the composite. The data are of particular use in determining the failure stress, failure strain, and failure mechanism of composite actuators and sensors subjected to high levels of stress, for example, in applications where such devices are embedded into host structures.

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“…Hence piezocomposites have been developed by combining lightweight, ductile, non-piezoelectric polymer with piezoceramic [16]. Today, most of the piezocomposites used in sensor and actuator technologies are of 1-3 type piezocomposites in which the one dimensional piezoelectric rods are embedded in a three dimensionally connected passive polymer matrix which are aligned along the thickness direction.…”

Section: Introductionmentioning

confidence: 99%

Experimental characterization and numerical modeling of time-dependent electro-mechanical response of piezocomposites

Jayendiran

Arockiarajan

2015

International Journal of Mechanical Sciences

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Smart piezoelectric Fibre composites

Cited by 84 publications

References 41 publications

Optimisation of interdigitated electrodes for piezoelectric actuators and active fibre composites

Optimisation of interdigitated electrodes for piezoelectric actuators and active fibre composites

Failure and volume fraction dependent mechanical properties of composite sensors and actuators

Experimental characterization and numerical modeling of time-dependent electro-mechanical response of piezocomposites

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