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Presented are theoretical and experimental results on electrically controlled static and dynamic flexing and deformation of iono-elastic beams made with ionic-polymer metal composite (IPMC) artificial muscles. These composite materials have the capability of large motion sensing and actuation in a biomimetic fashion. The essence of the underlying iono-elastic response of such materials is due to Coulombic electro-dynamic charge interaction amongst a dispersed phase of metallic particles that are charged either positively or negatively, mobile phase of a cation such as hydrogen ions H+ (Protons) or Li+, Hydroxyl anions OH-, and a fixed anionic phase such as an assembly of sulfonates SO3- elastically attached to the backbone polymer network macromolecules. The mathematical model presented is analogous to classical Euler-Bernoulli's beam theory modified to accommodate a non-homoeneous distributed electrically-induced moment due to the presence of a non-homogeneous electric field in an elastic material. The presentation may be extended to materials governed by hyper- elasticity such as in rubber elasticity. Analytical solution obtained agree reasonably well with our experimental results on Cationic Polymer-Platinum Composites (CPPC) which are also reported in this paper.
Mohsen Shahinpoor
"Electromechanics of ionoelastic beams as electrically controllable artificial muscles", Proc. SPIE 3669, Smart Structures and Materials 1999: Electroactive Polymer Actuators and Devices, (28 May 1999); https://doi.org/10.1117/12.349669
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Mohsen Shahinpoor, "Electromechanics of ionoelastic beams as electrically controllable artificial muscles," Proc. SPIE 3669, Smart Structures and Materials 1999: Electroactive Polymer Actuators and Devices, (28 May 1999); https://doi.org/10.1117/12.349669