On the Measurement of the Electrical Power Produced by Melt Spun Piezoelectric Textile Fibres

Piezoelectric, melt spun, textile fibres as multifunctional materials appeared recently, and they are under thorough investigation and testing in order to define their performance and behaviour. Although piezoelectricity was first reported in 1880 and the piezoelectric behaviour of organic polymers...

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Bibliographic Details
Published inJournal of electronic materials Vol. 45; no. 10; pp. 5112 - 5126
Main Authors Matsouka, Dimitroula, Vassiliadis, Savvas, Prekas, Kleanthis, Bayramol, Derman Vatansever, Soin, Navneet, Siores, Elias
Format Journal Article
LanguageEnglish
Published New York Springer US 01.10.2016
Springer Nature B.V
Subjects
Characterization and Evaluation of Materials
Chemistry and Materials Science
Electricity generation
Electronics and Microelectronics
Instrumentation
Materials Science
Melt spinning
Optical and Electronic Materials
Solid State Physics
Textile fibers
melt spun
polyvinylidene difluoride
polyamide 11
Piezoelectricity
polypropylene
textile fibres
electric power measurement
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Summary:Piezoelectric, melt spun, textile fibres as multifunctional materials appeared recently, and they are under thorough investigation and testing in order to define their performance and behaviour. Although piezoelectricity was first reported in 1880 and the piezoelectric behaviour of organic polymers materials has been known since 1969, the fibrous form of the piezoelectric materials under consideration opens new technological horizons; however, it introduces novel restrictions and further complex parameters are involved in their study. The major issue of the current research work is the study of the actual capacity of the piezoelectric fibres, i.e. the electric power produced following mechanical stimulation of the individual fibre. The measurements were made possible after the development of the necessary specific equipment. The test results enabled the ranking of the various types of the piezoelectric fibres according to the respective power generation. The main difference in this research approach is the measurement of the power generated by the fibres. Measurement of the power generated by an electrical power source (in the case of energy harvesting applications which is the prime interest of this research project) is an important characteristic as the requirements of various applications are expressed in units of power. Stating the voltage produced during mechanical deformation of the fibres is not enough (cf. voltage produced due to electrostatic phenomena on textiles where the voltage is in the range is the several kV, but the power is not enough to power a light-emitting diode).
ISSN:0361-5235
1543-186X
DOI:10.1007/s11664-016-4710-3