The effect of calcining temperature on the properties of 0-3 piezoelectric composites of PZT and a liquid crystalline thermosetting polymer

Ende, D. A. van den; Groen, W.A.; Zwaag, Sybrand van der

doi:10.1007/s10832-010-9608-5

Cited by 10 publications

(7 citation statements)

References 25 publications

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“…The effect of calcination temperature on the piezoelectric properties of PZT 5A4 powder was previously investigated, and it has been reported that further calcinations of commercially available PZT powder improve the compositional homogeneity and thereby the piezoelectric properties. 27,30 From Fig. 1, it is clear that the crystallinity increases for the powder calcined at 1200°C compared to the as-received PZT powder, which will lead to better piezoelectric properties.…”

Section: Resultsmentioning

confidence: 99%

Piezoelectric and mechanical properties of structured PZT–epoxy composites

et al. 2013

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Structured lead zirconium titanate (PZT)-epoxy composites are prepared by dielectrophoresis. The piezoelectric and dielectric properties of the composites as a function of PZT volume fraction are investigated and compared with the corresponding unstructured composites. The effect of poling voltage on piezoelectric properties of the composites is studied for various volume fractions of PZT composites. The experimentally observed piezoelectric and dielectric properties have been compared with theoretical models. Dielectrophoretically structured composites exhibit higher piezoelectric voltage coefficients compared to 0-3 composites. Structured composites with 0.1 volume fraction of PZT have the highest piezoelectric voltage coefficient. The flexural strength and bending modulus of the structured and random composites were analyzed using three-point bending tests.

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Section: Resultsmentioning

confidence: 99%

Piezoelectric and mechanical properties of structured PZT–epoxy composites

et al. 2013

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“…The particle size measured with SEM is about 3-5 µm, which is in good agreement particle size measured by laser scattering. The phase purity and compositional homogeneity are studied by x-ray powder diffraction using a Bruker-AXS D5005 diffractometer [11,15]. The calcined powder crystallizes in a perovskite structure with the coexistence of rhombohedral and tetragonal phases.…”

Section: Methodsmentioning

confidence: 99%

“…The 0-3 composites are considered to be the least complicated in terms of manufacturing and ease of molding in complex, predesigned shapes. Although there have been many reports about piezoelectric-polymer composites with 0-3 connectivity, only a handful of investigations have been carried out on the effect of poling conditions on the piezoelectric properties of the composites for polymer matrices with different electrical conductivities [9][10][11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Piezoelectric and mechanical properties of fatigue resistant, self-healing PZT–ionomer composites

James

Lafont

Zwaag

et al. 2014

Smart Mater. Struct.

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Piezoelectric ceramic–polymer composites with 0–3 connectivity were fabricated using lead zirconium titanate (PZT) powder dispersed in an ionomer (Zn ionomer) and its reference ethylene methacrylic acid copolymer (EMAA) polymer matrix. The PZT–Zn ionomer and PZT–EMAA composites were prepared by melt extrusion followed by hot pressing. The effects of poling conditions such as temperature, time and electric field on the piezoelectric properties of the composites were investigated. The experimentally observed piezoelectric charge coefficient and dielectric constant of the composites were compared with theoretical models. The results show that PZT–Zn ionomer composites have better piezoelectric properties compared to PZT–EMAA composites. The static and fatigue properties of the composites were investigated. The PZT–Zn ionomer composites were found to have excellent fatigue resistance even at strain levels of 4%. Due to the self-healing capabilities of the ionomer matrix, the loss of piezoelectric properties after high strain tensile cyclic loading could be partially recovered by thermal healing.

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“…In order to improve its piezoelectric properties the as-received powder was calcined at 1200 C for 2 h in a closed alumina crucible in a Nabertherm furnace applying a heating rate of 5 C/min. The calcined powder was ball milled using yttria stabilized zirconia balls of 5 mm diameter in cyclohexane for 4 hrs [10]. Subsequently, the powder was dried at 150 C and stored in a closed container to avoid moisture absorption.…”

Section: Methodsmentioning

confidence: 99%

Analysis of the state of poling of lead zirconate titanate (PZT) particles in a Zn-ionomer composite

et al. 2016

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The poling behaviour of tetragonal lead zirconate titanate (PZT) piezoelectric ceramic particles in a weakly conductive ionomer polymer matrix is investigated using high energy synchrotron X-ray diffraction analysis. The poling efficiency, crystallographic texture and lattice strain of the PZT particles inside the polymer matrix are determined and compared with the values for corresponding bulk ceramics reported in literature. The volume fraction of c-axis oriented domains and the lattice strain of the PZT particles are calculated from the changes in the integral intensities of the {200} peaks and the shift in the position of the {111} peaks respectively. It is shown that for an applied macroscopic field of 15 kV.mm ¡1 , the PZT particles are effectively poled, leading to a maximum n(002) domain reorientation volume fraction, of around 0.70. It is also found that a significant tensile lattice strain, e{111}, of 0.6% occurs in the direction of the applied electric field, indicating the occurrence of residual stresses within the 2-4 mm size diameter particles. Although lower than that observed in poled tetragonal PZT ceramics, this level of lattice strain does indicate that the PZT particles within the composite experience significant elastic constraint. The correlation between the poling induced structural changes and the macroscopic piezoelectric and dielectric properties is discussed.

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The effect of calcining temperature on the properties of 0-3 piezoelectric composites of PZT and a liquid crystalline thermosetting polymer

Cited by 10 publications

References 25 publications

Piezoelectric and mechanical properties of structured PZT–epoxy composites

Piezoelectric and mechanical properties of structured PZT–epoxy composites

Piezoelectric and mechanical properties of fatigue resistant, self-healing PZT–ionomer composites

Analysis of the state of poling of lead zirconate titanate (PZT) particles in a Zn-ionomer composite

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