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Size-dependent nonlinear secondary resonance of micro-/nano-beams made of nano-porous biomaterials including truncated cube cells

Sahmani, Saeid; Fotouhi, Mohamad; Aghdam, Mohammad Mohammadi

Size-dependent nonlinear secondary resonance of micro-/nano-beams made of nano-porous biomaterials including truncated cube cells Thumbnail


Authors

Saeid Sahmani

Mohammad Mohammadi Aghdam



Abstract

© 2018, Springer-Verlag GmbH Austria, part of Springer Nature. Porous biomaterials have been utilized in cellular structures in order to mimic the function of bone as a branch of tissue engineering approach. With the aid of nano-porous biomaterials in which the pore size is at nanoscale, the capability of biological molecular isolation becomes more efficient. In the present study, first the mechanical properties of nano-porous biomaterials are estimated on the basis of a truncated cube cell model including a refined hyperbolic shear deformation for the associated lattice structure. After that, based upon a nonlocal strain gradient beam model, the size-dependent nonlinear secondary resonance of micro-/nano-beams made of the nano-porous biomaterial is predicted corresponding to both subharmonic and superharmonic excitations. The nonclassical governing differential equation of motion is constructed via Hamilton’s principle. By employing the Galerkin technique together with the multiple-timescale method, the nonlocal strain gradient frequency response and amplitude response of the nonlinear oscillation of micro-/nano-beams made of a nano-porous biomaterial under hard excitation are achieved. It is shown that in the superharmonic case, increasing the pore size leads to an enhancement of the nonlinear hardening spring-type behavior of the jump phenomenon and the height of limit point bifurcations. In the subharmonic case, higher pore size causes an increase in the gap between two branches associated with the high-frequency and low-frequency solutions.

Citation

Sahmani, S., Fotouhi, M., & Aghdam, M. M. (2019). Size-dependent nonlinear secondary resonance of micro-/nano-beams made of nano-porous biomaterials including truncated cube cells. Acta Mechanica, 230(3), 1077-1103. https://doi.org/10.1007/s00707-018-2334-9

Journal Article Type Article
Acceptance Date Nov 22, 2018
Online Publication Date Dec 27, 2018
Publication Date Mar 5, 2019
Publicly Available Date Dec 28, 2019
Journal Acta Mechanica
Print ISSN 0001-5970
Publisher Springer (part of Springer Nature)
Peer Reviewed Peer Reviewed
Volume 230
Issue 3
Pages 1077-1103
DOI https://doi.org/10.1007/s00707-018-2334-9
Keywords nano-biomechanics, porosity, nonlinear oscillation, size dependency, nonlocal strain gradient theory
Public URL https://uwe-repository.worktribe.com/output/849880
Publisher URL https://doi.org/10.1007/s00707-018-2334-9
Additional Information Additional Information : The final publication is available at Springer via https://doi.org/10.1007/s00707-018-2334-9

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