Title :
Hysteresis modeling for IPMC actuators with rate-dependent Preisach model
Author :
Ying Feng ; Kumkongkaew, Wirut ; Juan Du ; Rakheja, Subhash ; Chun-Yi Su
Author_Institution :
Key Lab. of Autonomous Syst. & Networked Control, South China Univ. of Technol., Guangzhou, China
Abstract :
Ionic polymer-metal composites(IPMCs) is a class of new smart materials, which can generate large bending motions under a low driving voltage, and this property of IPMCs can be used as artificial muscle driving devices without the traditional components. However, one strong non-smooth nonlinearity, hysteresis, exists between its bending curvature and the applied input voltage. The hysteresis curve is altered with the change of the input voltage rate, which causes the hysteresis in IPMCs with rate-dependent characteristics. In this paper, one modified Preisach hysteresis model is proposed to describe the rate-dependent hysteresis in IPMCs. In order to identify the effectiveness of the proposed modeling method, the comparison results between the experiment measured output and the computing output are given in this paper.
Keywords :
bending; electroactive polymer actuators; hysteresis; intelligent materials; IPMC actuators; IPMCs; artificial muscle driving devices; bending curvature; bending motions; hysteresis curve; hysteresis modeling; ionic polymer-metal composites; nonsmooth nonlinearity; rate-dependent Preisach model; rate-dependent hysteresis; smart materials; Actuators; Computational modeling; Density functional theory; Hysteresis; Mathematical model; Polymers; Hysteresis; IPMCs; Preisach model; Rate-independence;
Conference_Titel :
Intelligent Control and Automation (WCICA), 2014 11th World Congress on
DOI :
10.1109/WCICA.2014.7052950
