Parisa Haghi scite author profile

The present research deals with the wave dispersion behavior of a rotating functionally graded material (FGMs) nanobeam applying nonlocal elasticity theory of Eringen. Material properties of rotating FG nanobeam are spatially graded according to a power-law model. The governing equations as functions of axial force due to centrifugal stiffening and displacements are obtained by employing Hamilton’s principle based on the Euler–Bernoulli beam theory. By using an analytical model, the dispersion relations of the FG nanobeam are derived by solving an eigenvalue problem. Numerical results clearly show that various parameters, such as angular velocity, gradient index, wave number and nonlocal parameter, are significantly effective to characteristics of wave propagations of rotating FG nanobeams. The results can be useful for next generation study and design of nanomachines, such as nanoturbines, nanoscale molecular bearings and nanogears, etc.

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Wave propagation analysis of rotating thermoelastically-actuated nanobeams based on nonlocal strain gradient theory

Ebrahimi

Haghi

2017

Acta Mechanica Solida Sinica

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Thermal effects on wave propagation characteristics of rotating strain gradient temperature-dependent functionally graded nanoscale beams

Ebrahimi

Barati

Haghi

2016

Journal of Thermal Stresses

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Influence of magnetic field on the wave propagation response of functionally graded (FG) beam lying on elastic foundation in thermal environment

Ebrahimi

Seyfi

Nouraei

et al. 2021

Waves in Random and Complex Media

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Nonlocal thermo-elastic wave propagation in temperature-dependent embedded small-scaled nonhomogeneous beams

2016

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Parisa Haghi

Wave propagation analysis of size-dependent rotating inhomogeneous nanobeams based on nonlocal elasticity theory

Wave propagation analysis of rotating thermoelastically-actuated nanobeams based on nonlocal strain gradient theory

Thermal effects on wave propagation characteristics of rotating strain gradient temperature-dependent functionally graded nanoscale beams

Influence of magnetic field on the wave propagation response of functionally graded (FG) beam lying on elastic foundation in thermal environment

Nonlocal thermo-elastic wave propagation in temperature-dependent embedded small-scaled nonhomogeneous beams

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