2008
DOI: 10.1177/1045389x08094365
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Ferroelectric Characterization of Single PZT Fibers

Abstract: In a previous work, the authors have presented a comprehensive procedure for the direct characterization of single piezoelectric ceramic fibers in terms of butterfly and polarization loops and blocking force. The ability to investigate single fibers is relevant for optimizing their manufacturing processes, for quality control purposes, and for modeling the response of components and structures. In this study the novel testing procedure is used to characterize commercially available fibers distributed by Advanc… Show more

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Cited by 21 publications
(29 citation statements)
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“…31 In addition, due to the small differences between the tetragonal (T) and rhombohedral (R) cell parameters, many of the diffraction lines in the coexistence region overlap to some degree. For example, Heiber et al 33 report that similar-diameter sintered PZT fibers, with a difference in porosity even higher than that verified in the present work, resulted in a 10% difference in S max . Therefore, for compositions close to the desired morphotropic phase boundary (MPB), where both the T and R phases coexist, three distinct lines are produced: (002) T , (200) R , and (200) T .…”
Section: (3) Microstructure and Propertiessupporting
confidence: 52%
“…31 In addition, due to the small differences between the tetragonal (T) and rhombohedral (R) cell parameters, many of the diffraction lines in the coexistence region overlap to some degree. For example, Heiber et al 33 report that similar-diameter sintered PZT fibers, with a difference in porosity even higher than that verified in the present work, resulted in a 10% difference in S max . Therefore, for compositions close to the desired morphotropic phase boundary (MPB), where both the T and R phases coexist, three distinct lines are produced: (002) T , (200) R , and (200) T .…”
Section: (3) Microstructure and Propertiessupporting
confidence: 52%
“…A PZT fiber with low porosity, large grain size and a phase composition close to the nearly temperature-independent morphotropic phase boundary (MPB), exhibits superior electromechanical performance. However, the slightly higher porosity observed for the co-extruded fibers does not explain their inferior electromechanical performance (40 % drop in maximum strain when compared to the extruded fibers) [13].…”
Section: Fig 2 Three-dimensional Representations Showing the Innermentioning
confidence: 98%
“…It is not possible to clearly identify from this pattern whether the PZT is crystallized with a tetragonal or a rhombohedral perovskite phase as a result of the lower annealing temperature of 700°C. However, when the PZT powders prepared from the same sol–gel solution were pressed into pellets and sintered at 1260°C, a clear tetragonal peak splitting was observed at the (100)/(001) and (200)/(002) peaks 8 …”
Section: Resultsmentioning
confidence: 99%
“…There are a few methods to obtain PZT in fiber form. Sol–gel, viscous suspension spinning process (VSSP), and extrusion, for instance, are applied to produce PZT fibers, typically in the micrometer scale 6–8 . The electrospinning technique has recently gotten attention because fibers at the micro‐ and even nanoscale can be produced by this method.…”
Section: Introductionmentioning
confidence: 99%