Evaluation of possibilities of electroactive polymers application in bio-inspired adaptronic system

by Jerzy Kaleta, Krzysztof Kot, Daniel Lewandowski, Katarzyna Niemiec, Przemysław K. Wiewiórski
Abstract:
The paper presents an original design of 3-segments adaptronic analogue of units of mammal’s vertebrae based on 8 actuators using dielectric electro-active polymer (DEAP). The way of preparation took into account the tendency of the DEAP material to local breakdowns, caused by degradation of the internal structure. The cross effects of phase response on a given electrical stimulus under high voltage were identified as well. The degrees of freedom of the analogue segments were determined, taking into account biological significance of vertebral endplates which a simplified form is included in the model. The work is to propose a bio-inspired techniques to build robots with many degrees of freedom using DEAP materials.
Reference:
Evaluation of possibilities of electroactive polymers application in bio-inspired adaptronic system (Jerzy Kaleta, Krzysztof Kot, Daniel Lewandowski, Katarzyna Niemiec, Przemysław K. Wiewiórski), In Mechatronics 2013: recent technological and scientific advances (Tomáš Březina, Ryszard Jabloński, eds.), Springer, 2014.
Bibtex Entry:
@InProceedings{	  Kaleta2014,
  author	= {Kaleta, Jerzy and Kot, Krzysztof and Lewandowski, Daniel and Niemiec, Katarzyna and Wiewiórski, Przemysław K.},
  title		= {Evaluation of possibilities of electroactive polymers application in bio-inspired adaptronic system},
  booktitle	= {Mechatronics 2013: recent technological and scientific advances},
  year		= {2014},
  editor	= {Tomáš Březina and Ryszard Jabloński},
  pages		= {227-234},
  address	= {Cham i in.},
  publisher	= {Springer},
  abstract	= {The paper presents an original design of 3-segments adaptronic analogue of units of mammal’s vertebrae based on 8 actuators using dielectric electro-active
		  polymer (DEAP). The way of preparation took into account the tendency of the DEAP material to local breakdowns, caused by degradation of the internal structure.
		  The cross effects of phase response on a given electrical stimulus under high voltage were identified as well. The degrees of freedom of the analogue segments
		  were determined, taking into account biological significance of vertebral endplates which a simplified form is included in the model. The work is to propose a
		  bio-inspired techniques to build robots with many degrees of freedom using DEAP materials.},
  doi		= {10.1007/978-3-319-02294-9_29},
  keywords	= {aktuator, efekt krzyżowy, smart materiał, bio-inspired, elektroaktywne polimery LEAP, DEAP, adaptronika}
}