Size-dependent dynamical analysis of spinning nanotubes conveying magnetic nanoflow considering surface and environmental effects
From MaRDI portal
Publication:2109593
DOI10.1016/J.APM.2022.03.017zbMath1503.74029OpenAlexW4220790384MaRDI QIDQ2109593
Saman Esfahani, Sajede Shabanpour Kesari, Hoda Sarparast, Akbar Alibeigloo
Publication date: 21 December 2022
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apm.2022.03.017
Related Items (3)
Dynamics of spinning pipes conveying flow with internal elliptical cross-section surrounded by an external annular fluid by considering rotary inertia effects ⋮ Periodic motion of microscale cantilevered fluid-conveying pipes with symmetric breaking on the cross-Section ⋮ Dynamic instability mechanism of post-buckled FG nanotubes transporting pulsatile flow: size-dependence and local/global dynamics
Cites Work
- A higher-order nonlocal elasticity and strain gradient theory and its applications in wave propagation
- Vibration and enhanced stability properties of fluid-conveying pipes with two symmetric elbows fitted at downstream end
- The effect of thickness on the mechanics of nanobeams
- Static analysis of rectangular nano-plate using three-dimensional theory of elasticity
- Stability analysis of thin-walled spinning reinforced pipes conveying fluid in thermal environment
- Vibration of fluid-conveying nanotubes subjected to magnetic field based on the thin-walled Timoshenko beam theory
- Effects of thermal environment and external mean flow on sound transmission loss of sandwich functionally graded magneto-electro-elastic cylindrical nanoshell
- On the vibrations of axially graded Rayleigh beams under a moving load
- Vibration of viscoelastic axially graded beams with simultaneous axial and spinning motions under an axial load
- Nonlinear vibration and stability analysis of the curved microtube conveying fluid as a model of the micro coriolis flowmeters based on strain gradient theory
- Flow-induced and mechanical stability of cantilever carbon nanotubes subjected to an axial compressive load
- Coupling effect of thickness and shear deformation on size-dependent bending of micro/nano-scale porous beams
- Vibration control of a pipe conveying fluid under external periodic excitation using a nonlinear energy sink
- On the Stability of Spinning Functionally Graded Cantilevered Pipes Subjected to Fluid-Thermomechanical Loading
This page was built for publication: Size-dependent dynamical analysis of spinning nanotubes conveying magnetic nanoflow considering surface and environmental effects
