University of Nevada, Reno Design and Characterization of Sectored (Patterned) IPMC Actuators for Propulsion and Maneuvering in Bio-Inspired Underwater Systems A thesis submitted in partial fulﬁllment of the - Ionic polymer–metal composite - Document - PDFSEARCH.IO

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	University of Nevada, Reno Design and Characterization of Sectored (Patterned) IPMC Actuators for Propulsion and Maneuvering in Bio-Inspired Underwater Systems A thesis submitted in partial fulﬁllment of the Add to Reading List Document Date: 2012-04-05 18:20:11 Open Document File Size: 2,06 MB Share Result on Facebook Company Bio-Inspired Robotic Systems / / Facility University of Nevada / / IndustryTerm metal / underwater applications / multifunctional applications / autonomous systems / marine systems / / MusicGroup Dean / Ph.D. / GRADUATE / Committee / / Organization GRADUATE SCHOOL / Alternative IPMC Assembly for Complex Bending and Twisting / Blocking Force / Woods Hole Oceanographic Institution / University of Nevada / Reno Design and Characterization of Sectored / United States Navy / Illustrative / / Person Kwang J. Kim / Kam K. Leang / Viljar Palmre / Yingfeng Shan / Max Fleming / Yantao Shen / Robert Riddle / David Pugal / Joel Jackson Ures Hubbard / Brian Kenton / Marsha H. Read / Chris German / Tom Bolmer / Woods Hole / Diana / Averi / / / Position Advisor / Associate Dean / Representative / Thesis Advisor / adviser / / ProgrammingLanguage DC / / ProvinceOrState Nevada / / RadioStation 2.9 IPMC AM / / Technology ion exchange / laser / / URL www.3dcadbrowser.com / / SocialTag Remotely operated underwater vehicle Autonomous underwater vehicle Propulsor Torque Physics Ionic polymer–metal composite Polymers

University of Nevada, Reno Design and Characterization of Sectored (Patterned) IPMC Actuators for Propulsion and Maneuvering in Bio-Inspired Underwater Systems A thesis submitted in partial fulﬁllment of theAdd to Reading List