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dc.contributor.authorEyvazian, Arameh
dc.contributor.authorZhang, Chunwei
dc.contributor.authorMusharavati, Farayi
dc.contributor.authorKhan, Afrasyab
dc.contributor.authorAlkhedher, Mohammad
dc.identifier.citationEyvazian, A., Zhang, C., Musharavati, F., Khan, A., & Alkhedher, M. (2021). Free vibration analysis and post-critical free vibrations of nanocomposite rotating beams reinforced with graphene platelet. Journal of Vibration and Control, 10775463211051187.en_US
dc.description.abstractTreatment of the first natural frequency of a rotating nanocomposite beam reinforced with graphene platelet is discussed here. In regard of the Timoshenko beam theory hypothesis, the motion equations are acquired. The effective elasticity modulus of the rotating nanocomposite beam is specified resorting to the Halpin–Tsai micro mechanical model. The Ritz technique is utilized for the sake of discretization of the nonlinear equations of motion. The first natural frequency of the rotating nanocomposite beam prior to the buckling instability and the associated post-critical natural frequency is computed by means of a powerful iteration scheme in reliance on the Newton–Raphson method alongside the iteration strategy. The impact of adding the graphene platelet to a rotating isotropic beam in thermal ambient is discussed in detail. The impression of support conditions, and the weight fraction and the dispersion type of the graphene platelet on the acquired outcomes are studied. It is elucidated that when a beam has not undergone a temperature increment, by reinforcing the beam with graphene platelet, the natural frequency is enhanced. However, when the beam is in a thermal environment, at low-to-medium range of rotational velocity, adding the graphene platelet diminishes the first natural frequency of a rotating O-GPL nanocomposite beam. Depending on the temperature, the post-critical natural frequency of a rotating X-GPL nanocomposite beam may be enhanced or reduced by the growth of the graphene platelet weight fraction.en_US
dc.publisherSAGE Publicationsen_US
dc.subjectReinforcement phaseen_US
dc.subjectRotating nanocomposite beamen_US
dc.subjectStatic instabilityen_US
dc.subjectPost-critical free vibrationsen_US
dc.subjectGraphene plateleten_US
dc.titleFree vibration analysis and post-critical free vibrations of nanocomposite rotating beams reinforced with graphene plateleten_US
dc.title.alternativeJournal articleen_US

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