磁流变弹性体中磁介质效应的自由振动和强迫振动行为

IF 1.9 Q3 ENGINEERING, MECHANICAL Vibration Pub Date : 2023-03-03 DOI:10.3390/vibration6010017
H. Jafari, R. Sedaghati
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引用次数: 1

摘要

本文研究了磁/电活性介质弹性体的自由振动和强迫振动响应,强调了混沌现象。介电弹性体在外部磁激励和电激励下经历大的弹性变形。基于Gent–Gent应变能函数对磁介质弹性体进行建模,以纳入第二不变量和应变硬化的影响。活性聚合物的粘弹性也以瑞利耗散函数的形式考虑。运动方程是在拉格朗日方程的帮助下,根据物理量,即弹性体的拉伸来控制的。利用基于能量的方法来重新评估谐振器的静态和直流电压不稳定性。数值获得并给出了时间拉伸响应(时程行为)、相平面图、庞加莱映射和快速傅立叶变换,以探索活性聚合物致动器的混沌振荡行为。结果表明,磁场可以调节活性聚合物膜的稳定性和不稳定性区域。还表明,当正弦电压同时施加到系统时,所施加的磁场可能导致混沌振动响应。本文的研究结果可有效地用于在电和磁刺激下设计磁、电软机器人致动器和弹性体膜。
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Free and Forced Vibration Behaviors of Magnetodielectric Effect in Magnetorheological Elastomers
This paper is concerned with the free and forced vibration responses of a magneto/electroactive dielectric elastomer, emphasizing the chaotic phenomena. The dielectric elastomers under external magnetic and electrical excitations undergo large elastic deformation. The magnetodielectric elastomer is modeled based on the Gent–Gent strain energy function to incorporate the influence of the second invariant and the strain stiffening. The viscoelasticity of the active polymer is also considered in the form of Rayleigh’s dissipation function. The equation of motion is governed with the aid of the Lagrangian equation in terms of a physical quantity, namely, the stretch of the elastomer. An energy-based approach is utilized to re-evaluate the static and DC voltage instabilities of the resonator. Time-stretch response (time history behavior), phase plane diagram, Poincaré map, and fast Fourier transform are numerically obtained and presented to explore the chaotic oscillation behavior of the active polymer actuators. The results reveal that the magnetic field may tune the stability and instability regions of the active polymeric membrane. It has also been shown that the applied magnetic field may lead to chaotic vibration responses when a sinusoidal voltage is applied simultaneously to the system. The results presented in this paper can be effectively used to design magnetic and electrical soft robotic actuators and elastomer membranes under electrical and magnetic stimulants.
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来源期刊
CiteScore
3.20
自引率
0.00%
发文量
0
审稿时长
10 weeks
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