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Electromechanical distributed modeling of ionic polymer metal composites

Vunder, V.; Punning, A.; Aabloo, A. (2016). Electromechanical distributed modeling of ionic polymer metal composites. In: RSC Smart Materials (228−247). CAMBRIDGE: Royal Society of Chemistry. (Smart Materials Series).10.1039/9781782622581-00228.
kogumikuartikkel/peatükk raamatus/kogumikus
Vunder, V.; Punning, A.; Aabloo, A.
  • Inglise
RSC Smart Materials
CAMBRIDGE
Royal Society of Chemistry
2046-0066
978-1-78262-077-8
2016-January
17
Smart Materials Series
2016
228247
20
Ilmunud
3.1. Artiklid/peatükid lisas loetletud kirjastuste välja antud kogumikes (kaasa arvatud Web of Science Book Citation Index, Web of Science Conference Proceedings Citation Index, Scopus refereeritud kogumikud)
Teadmata

Viited terviktekstile

dx.doi.org/10.1039/9781782622581-00228

Seotud asutused

University of Tartu

Lisainfo

Book Chapter © 2016 The Royal Society of Chemistry. The electromechanical bending response of an ionic polymer metal composite (IPMC) is caused by migration of ions between different layers of the laminate. There are a lot of studies in which the underlying fundamental processes of IPMC actuators are explained using physics-based white-box modeling. From the engineering aspect, the alternative approach - semi-physical gray-box electromechanical modeling - is more reasonable. It may embody the knowledge on the low-level processes, but also relies on some basic functions, whose parameters are determined from simple measurements. Combining the electrical circuits and mechanical viscoelastic models allows straightforward electromechanical modeling of the IPMC actuators and sensors. The current chapter tries to justify the diversity of the gray-box models, discussing their design principles and evolution from simple lumped models up to of the sophisticated distributed models of IPMCs.