Abstract
In this paper, the nonlinear dynamic behaviors of a hyperelastic cylindrical membrane composed of the incompressible Ogden material are examined, where the membrane is subjected to uniformly distributed radial periodic loads at the internal surface and surrounded by a thermal field. A second-order nonlinear differential equation describing the radially symmetric motion of the membrane is obtained. Then, the dynamic characteristics of the system are qualitatively analyzed in terms of different material parameter spaces and ambient temperatures. Particularly, for a given constant load, the bifurcation phenomenon of equilibrium points is examined. It is shown that there exists a critical load, and the phase orbits may be the asymmetric homoclinic orbits of the “\(\infty \)” type. Moreover, for the system with two centers and one saddle point, the dynamic behaviors of the system show softening phenomena at both centers, but the temperature has opposite effects on the stiffness of the structure. For a given periodically perturbed load superposed on the constant term, some complex dynamic behaviors such as quasiperiodic and chaotic oscillations are analyzed. With the Poincaré section and the maximum Lyapunov characteristic exponent, it is found that the ambient temperature could lead to the irregularity and unpredictability of the nonlinear system, and also changes the threshold of chaos.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ogden RW. Non-Linear Elastic Deformations. Mineola, N.Y.: Dover Publications; 1997.
Wang R, Yuan XG, Zhang HW, Xu J, Zhang J. Some interesting traveling waves in a transversely isotropic incompressible hyperelastic semi-infinite rod. Acta Mech Solida Sin. 2018;31:698–716.
Chen W, Dai HL, Jia QQ, Wang L. Geometrically exact equation of motion for large-amplitude oscillation of cantilevered pipe conveying fluid. Nonlinear Dyn. 2019;98:2097–114.
Knowles JK. Large amplitude oscillations of a tube of incompressible elastic material. Q Appl Math. 1960;18:71–7.
Guo ZH, Solecki R. Free and forced finite-amplitude oscillations of an elastic thick-walled hollow sphere made of incompressible material. Arch Mech. 1963;15:427–33.
Fu YB, Pearce SP, Liu KK. Post-bifurcation analysis of a thin-walled hyperelastic tube under inflation. Int J Non-Linear Mech. 2008;43:697–706.
Gonçalves PB, Soares RM, Pamplona D. Nonlinear vibrations of a radially stretched circular hyperelastic membrane. J Sound Vib. 2009;327:231–48.
Amabili M. Nonlinear mechanics of shells and plates in composite, soft and biological materials[M]. Cambridge: Cambridge University Press; 2018.
Alijani F, Amabili M. Non-linear vibrations of shells: A literature review from 2003 to 2013. Int J Non Linear Mech. 2014;58:233–57.
Rodríguez-Martínez JA, Fernández-Sáez J, Zaera R. The role of constitutive relation in the stability of hyper-elastic spherical membranes subjected to dynamic inflation. Int J Eng Sci. 2015;93:31–45.
Soares RM, Gonçalves PB. Large-amplitude nonlinear vibrations of a Mooney-Rivlin rectangular membrane. J Sound Vib. 2014;333:2920–35.
Dai HL, Wang L. Nonlinear oscillations of a dielectric elastomer membrane subjected to in-plane stretching. Nonlinear Dyn. 2015;82:1709–19.
Aranda-Iglesias D, Rodríguez-Martínez JA, Rubin MB. Nonlinear axisymmetric vibrations of a hyperelastic orthotropic cylinder. Int J Non-Linear Mech. 2018;99:131–43.
Zhao ZT, Zhang WZ, Zhang HW, Yuan XG. Some interesting nonlinear dynamic behaviors of hyperelastic spherical membranes subjected to dynamic loads. Acta Mech. 2019;230:3003–18.
Zhao ZT, Yuan XG, Niu DT, Zhang WZ, Zhang HW. Phenomena of Bifurcation and Chaos in the Dynamically Loaded Hyperelastic Spherical Membrane Based on a Noninteger Power-Law Constitutive Model. Int J Bifurcat Chaos. 2021;31:2130015.
Zhang J, Xu J, Yuan XG, Ding H, Niu DT, Zhang WZ. Nonlinear vibration analyses of cylindrical shells composed of hyperelastic materials. Acta Mech Solida Sin. 2019;32:463–82.
Lu SCH, Pister KS. Decomposition of deformation and representation of the free energy function for isotropic thermoelastic solids. Int J Solids Struct. 1975;11:927–34.
Lion A. On the large deformation behaviour of reinforced rubber at different temperatures. J Mech Phys Solids. 1997;45:1805–34.
Almasi A, Baghani M, Moallemi A, Baniassadi M, Faraji G. Investigation on thermal stresses in FGM hyperelastic thick-walled cylinders. J Therm Stress. 2018;41:204–21.
Yarali E, Noroozi R, Moallemi A, Taheri A, Baghani M. Develo** an analytical solution for a thermally tunable soft actuator under finite bending. Mach: Mech. Based Des. Struct; 2020.
Xu J, Yuan XG, Zhang HW, Zheng F, Chen LQ. Nonlinear vibrations of thermo-hyperelastic moderately thick cylindrical shells with 2: 1 internal resonance. Int J Struct Stab Dyn. 2020;20:2050067.
Safaei B, Moradi-Dastjerdi R, Qin ZY, Chu FL. Frequency-dependent forced vibration analysis of nanocomposite sandwich plate under thermo-mechanical loads. Compos B Eng. 2019;161:44–54.
Acknowledgements
This work was supported by the National Natural Science Foundation of China (Nos. 11702059 and 11872145) and the Guiding Plan of Natural Science Foundation of Liaoning Province (No. 2019-ZD-0183).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Zhang, W., Niu, D. & Zhao, F. Large-Amplitude Oscillations of Hyperelastic Cylindrical Membrane Under Thermal-Mechanical Fields. Acta Mech. Solida Sin. 35, 303–315 (2022). https://doi.org/10.1007/s10338-021-00278-0
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10338-021-00278-0