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- Title
Nonlinear continuum mechanics of thick hyperelastic sandwich beams using various shear deformable beam theories.
- Authors
Khaniki, Hossein B.; Ghayesh, Mergen H.; Chin, Rey; Hussain, Shahid
- Abstract
In this study, the time-dependent mechanics of multilayered thick hyperelastic beams are investigated for the first time using five different types of shear deformation models for modelling the beam (i.e. the Euler–Bernoulli, Timoshenko, third-order, trigonometric and exponential shear deformable models), together with the von Kármán geometrical nonlinearity and Mooney–Rivlin hyperelastic strain energy density. The laminated hyperelastic beam is assumed to be resting on a nonlinear foundation and undergoing a time-dependent external force. The coupled highly nonlinear hyperelastic equations of motion are obtained by considering the longitudinal, transverse and rotation motions and are solved using a dynamic equilibrium technique. Both the linear and nonlinear time-dependent mechanics of the structure are analysed for clamped–clamped and pinned–pinned boundaries, and the impact of considering the shear effect using different shear deformation theories is discussed in detail. The influence of layering, each layer's thickness, hyperelastic material positioning and many other parameters on the nonlinear frequency response is analysed, and it is shown that the resonance position, maximum amplitude, coupled motion and natural frequencies vary significantly for various hyperelastic and layer properties. The results of this study should be useful when studying layered soft structures, such as multilayer plastic packaging and laminated tubes, as well as modelling layered soft tissues.
- Subjects
NONLINEAR mechanics; SANDWICH construction (Materials); CONTINUUM mechanics; SHEAR (Mechanics); EQUATIONS of motion; EULER-Bernoulli beam theory
- Publication
Continuum Mechanics & Thermodynamics, 2022, Vol 34, Issue 3, p781
- ISSN
0935-1175
- Publication type
Article
- DOI
10.1007/s00161-022-01090-y