Dynamic analysis of rotating double-tapered cantilever Timoshenko nano-beam using the nonlocal strain gradient theory

Based on the nonlocal strain gradient theory, the coupling nonlinear dynamic equations of a rotating double-tapered cantilever Timoshenko nano-beam are derived using the Hamilton principle. The equation of motion is discretized via the differential quadrature method. The effects of the angular velocity, nonlocal parameter, slenderness ratio, cross-section parameter, and taper ratios are examined and discussed. It is shown that taper ratios and cross-section parameter play a significant role in the vibration response of a rotating cantilever nano-beam. Further as rotational angular velocity increases, the taper ratios and cross-section parameter effect on the frequency response are increased for first modes of vibration.