Biomedical Engineering Reference
In-Depth Information
———. 2002e. A novel physically loaded and interlocked electrode developed for ionic
polymer-metal composites (IPMCs).
Actuator Sensors A. Phys.
96(2/3):125-132.
———. 2002f. Metal hydride artificial muscles. U.S. Patent 6,405,532.
———. 2002g. Electrically controllable deformation memory effects in ionic polymers. In
Proceedings of SPIE 8th annual international symposium on smart structures and
materials
. (March, San Diego, CA), publication no. 4695-13:85-94.
———. 2002h. Experimental study of ionic polymer-metal composites in various cation
forms.
Actuator Behav., Sci. Eng. Composite Mater
. 10(6):423-436.
———. 2002i. A solid-state soft actuator exhibiting large electromechanical effect.
Appl.
Phys. Lett. (APL)
80(18):3445-3447.
———. 2002j. Mass transfer induced hydraulic actuation in ionic polymer-metal composites.
J. Intelligent Mater. Syst. Struct. (JIMSS)
13(6):369-376.
———. 2004. Ionic polymer-metal composites. III. Modeling and simulation as biomimetic
sensors, actuators, transducers and artificial muscles (review paper).
Smart Mater.
Struct. Int. J
. 13(4):1362-1388.
———. 2005. Ionic polymer-metal composites—IV. Industrial and medical applications
(review paper).
Smart Mater. Struct. Int. J
. 14(1):197-214.
Shahinpoor, M., K. J. Kim, S. Griffin, and D. Leo. 2001. Sensing capabilities of ionic poly-
mer-metal composites.
Proceedings of SPIE 8th annual international symposium on
smart structures and materials.
(March, Newport Beach, CA), publication no. 4329-28.
Shahinpoor, M., K. J. Kim, and D. Leo. 2003. Ionic polymer-metal composites as multifunc-
tional materials.
Polymer Composites
24(1):24-33.
Shahinpoor, M., K.J. Kim, and M. Mojarrad. 2005.
Ionic polymeric conductor composite
artificial muscles
, 2nd ed. Albuquerque, NM: ERI/AMRI Press.
Shahinpoor, M., K. J. Kim, L. O. Sillerud, I. D. Norris, and B. R. Mattes. 2002. Electroactive
polyacrylonitrile nanofibers as artificial nanomuscles. In
Proceedings of SPIE 8th
Annual International Symposium on Smart Structures and Materials
. (March, San
Diego, CA), publication no. 4695-42.
Shahinpoor, M., and M. Mojarrad. 1994. Active musculoskeletal structures equipped with a
circulatory system and a network of ionic polymeric gel muscles. In
Proceedings of
the international conference on intelligent materials
, 1079-1085. Also preprints of
the
Sapporo symposium on intelligent polymer gels
, 127-128 (Oct. 6-8, Sapporo,
Japan).
———. 1996. Ion-exchange membrane-platinum composites as electrically controllable arti-
ficial muscles. In
Proceedings (1996) of third international conference on intelligent
materials
,
ICIM '96
, and
Third European conference on smart structures and mate-
rials
. (June, Lyon, France), 1012-1017.
———. 1997a. Biomimetic robotic propulsion using ion-exchange membrane metal compos-
ite artificial muscles. In
Proceedings (1997) of IEEE robotic automation conference
(April, Albuquerque, NM).
———. 1997b. Ion-exchange-metal composite sensor films. In
Proceedings (1997) of SPIE smart
materials and structures conference
. (March, San Diego, CA), publication no. 3042-10.
———. 1997c. Ion-exchange-metal composite artificial muscle actuator load characterization
and modeling.
Smart Mater. Technol.
3040:294-301.
———. 1997d. Electrically induced large amplitude vibration and resonance characteristics
of ionic polymeric membrane-metal composites. In
Proceedings of SPIE conference
on intelligent structures and materials
(March 3-6, San Diego, CA).
———. 2000. Soft actuators and artificial muscles. U.S. Patent # 6,109,852.
