Uncovering isolated resonant responses in antagonistic pure-shear dielectric elastomer actuators

Chongjing Cao; Thomas L. Hill; Bo Li; Guimin Chen; Lei Wang; Xing Gao

doi:10.20517/ss.2021.01

Soft Science ›› 2021, Vol. 1 ›› Issue (1) :1 DOI: 10.20517/ss.2021.01

Research Article

Uncovering isolated resonant responses in antagonistic pure-shear dielectric elastomer actuators

Author information +

History +

PDF

Abstract

The dielectric elastomer actuator (DEA) is one type of emerging soft actuator that has the attractive features of large actuation strains, high energy density, and inherent compliance, which is desirable for novel bio-inspired and soft robotic applications. Due to their inherent elasticity, when stimulated by an alternating current voltage with a frequency matching the natural frequency of the DEA system, the DEAs can exhibit resonant responses which maximize the oscillation amplitude. Silicone elastomers are widely utilized for resonant actuation applications for their reduced viscous damping hence better dynamic performance compared to VHB elastomers. However, the low pre-stretch ratios adopted by silicone elastomers could induce loss-of-tension of the mem-branes in high amplitude oscillations, yet its effects on the dynamic responses of a DEA are not fully understood. By using a numerical dynamic model, this work studies the effects of the loss-of-tension on the frequency response of the antagonistic pure-shear DEAs. A subharmonic frequency response curve isolated from the main response branch is uncovered for the first time in a parametrically forced DEA system, which causes a sudden jump in the oscillation amplitude and serves as a severe threat to the dynamic stability and controllability of the DEA system. By using a global analysis method, the evolution of the isolated response curve against the excitation components and system physical parameters is also investigated numerically.

Keywords

Dielectric elastomer actuators / pure-shear configuration / nonlinear dynamics / isolated response curve / soft oscillator

Cite this article

Download citation ▾

Chongjing Cao, Thomas L. Hill, Bo Li, Guimin Chen, Lei Wang, Xing Gao. Uncovering isolated resonant responses in antagonistic pure-shear dielectric elastomer actuators. Soft Science, 2021, 1(1): 1 DOI:10.20517/ss.2021.01

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Pelrine R,Pei Q.High-speed electrically actuated elastomers with strain greater than 100%..Science2000;287:836-9

[2]	Wang N,Guo H.Advances in dielectric elastomer actuation technology..Sci China Technol Sci2018;61:1512-27

[3]	Carpi F,De Rossi D.Folded dielectric elastomer actuators..Smart Mater Struct2007;16:S300-5

[4]	Conn A.Towards holonomic electro-elastomer actuators with six degrees of freedom..Smart Mater Struct2012;21:035012

[5]	Cao C,Thomas H.On the mechanical power output comparisons of cone dielectric elastomer actuators..IEEE/ASME Trans Mechatron2021;

[6]	Zhao H,Duduta M.Compact dielectric elastomer linear actuators..Adv Funct Mater2018;28:1804328

[7]	Luo M,Liu C.A single-chamber pneumatic soft bending actuator with increased stroke-range by local electric guidance..IEEE Trans Ind Electron2020;

[8]	Kofod G,Paajanen M.Energy minimization for self-organized structure formation and actuation..Appl Phys Lett2007;90:1-4

[9]	Wang Y,Parulekar N.A soft gripper of fast speed and low energy consumption..Sci China Technol Sci2019;62:31-8

[10]	Tang C,Fang H.A speedy, amphibian, robotic cube: resonance actuation by a dielectric elastomer..Sensors Actuators A Phys2018;270:1-7

[11]	Gu G,Zhao R.Soft wall-climbing robots..Sci Robot2018;3:eaat2874

[12]	Li T,Mao G.Agile and resilient insect-scale robot..Soft Robot2018;6:133-41

[13]	Zhao J,McCoul D.Phenomena of nonlinear oscillation and special resonance of a dielectric elastomer minimum energy structure rotary joint..Appl Phys Lett2015;106:133504

[14]	Cao C,Burgess S.Power optimization of a conical dielectric elastomer actuator for resonant robotic systems..Extrem Mech Lett2019;35:100619

[15]	Chen Y,Mao J.Controlled flight of a microrobot powered by soft artificial muscles..Nature2019;575:324-9

[16]	Ji X,Cacucciolo V.An autonomous untethered fast soft robotic insect driven by low-voltage dielectric elastomer actuators..Sci Robot2019;4:eaaz6451

[17]	Li Z,Foo C.A robust dual-membrane dielectric elastomer actuator for large volume fluid pumping via snap-through..Appl Phys Lett2017;111:212901

[18]	Cao C,Conn A.A magnetically coupled dielectric elastomer pump for soft robotics..Adv Mater Technol2019;4:1900128

[19]	Shintake J,Schubert B.Versatile soft grippers with intrinsic electroadhesion based on multifunctional polymer actuators..Adv Mater2016;28:231-8

[20]	Gao X,Guo J.Elastic electroadhesion with rapid release by integrated resonant vibration..Adv Mater Technol2019;4:1800378

[21]	Li B,Jiang L.A flexible morphing wing by soft wing skin actuation utilizing dielectric elastomer: experiments and electro-aerodynamic model..Smart Mater Struct2020;29:015031

[22]	Gupta U,Zhao Z.Tunable force/displacement of a vibration shaker driven by a dielectric elastomer actuator..Extrem Mech Lett2015;2:72-7

[23]	Jordi C,Kovacs G.Scaling of planar dielectric elastomer actuators in an agonist-antagonist configuration..Sensors Actuators A Phys2010;161:182-90

[24]	Gu G,Zhu J.Modeling of viscoelastic electromechanical behavior in a soft dielectric elastomer actuator..IEEE Trans Robot2017;33:1263-71 PMCID:PMC7428350

[25]	Lu T,Jordi C.Dielectric elastomer actuators under equal-biaxial forces, uniaxial forces, and uniaxial constraint of stiff fibers..Soft Matter2012;8:6167

[26]	Goh Y,Khanh Vo T.Electrically-induced actuation of acrylic-based dielectric elastomers in excess of 500% Strain..Soft Robot2018;5:675-84

[27]	Zhang J,Sheng J.Dynamic performance of dissipative dielectric elastomers under alternating mechanical load..Appl Phys A2014;116:59-67

[28]	Liu F,Zhao X.Method towards optimal design of dielectric elastomer actuated soft machines..Sci China Technol Sci2018;61:959-64

[29]	Li B,Chen H.Voltage-induced pinnacle response in the dynamics of dielectric elastomers..Phys Rev E2016;93:052506

[30]	Dai H.Nonlinear oscillations of a dielectric elastomer membrane subjected to in-plane stretching..Nonlinear Dyn2015;82:1709-19

[31]	Shintake J,Schubert B.A foldable antagonistic actuator..IEEE/ASME Trans Mechatron2015;20:1997-2008

[32]	Liu L,Sheng J.Experimental study on the dynamic response of in-plane deformation of dielectric elastomer under alternating electric load..Smart Mater Struct2014;23:025037

[33]	Li T,Mao G.Electromechanical bistable behavior of a novel dielectric elastomer actuator..J Appl Mech2013;81:041019

[34]	Hau S,Rizzello G.Silicone based dielectric elastomer strip actuators coupled with nonlinear biasing elements for large actuation strains..Smart Mater Struct2018;27:074003

[35]	Lu T,Shi Q.Bioinspired bicipital muscle with fiber-constrained dielectric elastomer actuator..Extrem Mech Lett2016;6:75-81

[36]	Rus D.Design, fabrication and control of soft robots..Nature2015;521:467-75

[37]	Li B,Liu L.Modeling of dielectric elastomer as electromechanical resonator..J Appl Phys2014;116:124509

[38]	Liu L,Sun W.Viscoelastic effect and creep elimination of dielectric elastomers in adversarial resonance..J Appl Phys2016;120:164502

[39]	Zhang J,Chen H.Dynamic analyses of viscoelastic dielectric elastomers incorporating viscous damping effect..Smart Mater Struct2017;26:015010

[40]	Zhang J,Li D.Pinnacle elimination and stability analyses in nonlinear oscillation of soft dielectric elastomer slide actuators..Nonlinear Dyn2018;94:1907-20

[41]	Cao C,Conn A.Toward a dielectric elastomer resonator driven flapping wing micro air vehicle..Front Robot AI2019;5:1-11

[42]	Cao C,Conn A.On the nonlinear dynamics of a circular dielectric elastomer oscillator..Smart Mater Struct2019;28:075020

[43]	Sheng J,Li B.Nonlinear dynamic characteristics of a dielectric elastomer membrane undergoing in-plane deformation..Smart Mater Struct2014;23:045010

[44]	Gent A.A new constitutive relation for rubber..Rubber Chem Technol1996;69:59-61

[45]	Cao C,Conn A.A compliantly coupled dielectric elastomer actuator using magnetic repulsion..Appl Phys Lett2019;114:011904

[46]	Cao C,Conn A.Nonlinear dynamics of a magnetically coupled dielectric elastomer actuator..Phys Rev Appl2019;12:044033

[47]	Zhu J,Suo Z.Resonant behavior of a membrane of a dielectric elastomer..Int J Solids Struct2010;47:3254-62

[48]	Hodgins M,Naso D.An electro-mechanically coupled model for the dynamic behavior of a dielectric electro-active polymer actuator..Smart Mater Struct2014;23:104006

[49]	Forster-Zügel F,Klug F.Dielectric breakdown strength measurements with silicone-based single-layer dielectric elastomer transducers..Smart Mater Struct2019;28:075042

[50]	Gatti G.Uncovering inner detached resonance curves in coupled oscillators with nonlinearity..J Sound Vib2016;372:239-54

[51]	Gatti G.Inner detached frequency response curves: an experimental study..J Sound Vib2017;396:246-54

[52]	Duan C.Isolated sub-harmonic resonance branch in the frequency response of an oscillator with slight asymmetry in the clearance..J Sound Vib2008;314:12-8