AbstractIn the present paper the natural frequencies of fluid-conveying pipes with pinned–pinned boundary condition are derived explicitly in a systematical and straightforward way with the help of homotopy perturbation method. Numerical results are presented for two cases and the effect of fluid flow velocity on the natural frequencies is discussed. Good agreement with their experimental and FEM counterparts is found numerically over ranges of practical interest
The partial differential equations for curved pipes with fluid structure interaction, including the ...
A new transfer matrix method based on the Laplace transform is proposed to analyze the flow-induced ...
Pipes are widely used in industry and play a quite important role. A Coupling vibration induced by a...
AbstractIn the present paper the natural frequencies of fluid-conveying pipes with pinned–pinned bou...
The dynamic behavior of fluid conveying pipe has been investigated by using Rayleigh theory to prese...
In this study, the transverse natural frequencies of a pressurized hot fluid conveying pipe is inves...
The curved pipe made of functionally graded material conveying fluid is considered and the in-plane ...
The resonance problem of an industrial fluid-conveying pipeline system can be mitigated by shifting ...
Despite extensive use of curved pipes conveying high-speed fluids in many engineering fields, few re...
The dynamic behavior of clamped-clamped straight pipes conveying gas-liquid two-phase flow is theore...
In this study, linear vibration of fluid carrying pipe with intermediate support was discussed. Supp...
As a fluid flows in a deflecting pipe it tends to be accelerated. When the fluid velocity is very hi...
A new differential transformation method is developed in this paper and is applied for free vibratio...
Linear stability of a pipe conveying fluid has been studied as a classical problem of the elastic st...
For the aviation bending pipe, the fluid-structure interaction 14-equation model is established, and...
The partial differential equations for curved pipes with fluid structure interaction, including the ...
A new transfer matrix method based on the Laplace transform is proposed to analyze the flow-induced ...
Pipes are widely used in industry and play a quite important role. A Coupling vibration induced by a...
AbstractIn the present paper the natural frequencies of fluid-conveying pipes with pinned–pinned bou...
The dynamic behavior of fluid conveying pipe has been investigated by using Rayleigh theory to prese...
In this study, the transverse natural frequencies of a pressurized hot fluid conveying pipe is inves...
The curved pipe made of functionally graded material conveying fluid is considered and the in-plane ...
The resonance problem of an industrial fluid-conveying pipeline system can be mitigated by shifting ...
Despite extensive use of curved pipes conveying high-speed fluids in many engineering fields, few re...
The dynamic behavior of clamped-clamped straight pipes conveying gas-liquid two-phase flow is theore...
In this study, linear vibration of fluid carrying pipe with intermediate support was discussed. Supp...
As a fluid flows in a deflecting pipe it tends to be accelerated. When the fluid velocity is very hi...
A new differential transformation method is developed in this paper and is applied for free vibratio...
Linear stability of a pipe conveying fluid has been studied as a classical problem of the elastic st...
For the aviation bending pipe, the fluid-structure interaction 14-equation model is established, and...
The partial differential equations for curved pipes with fluid structure interaction, including the ...
A new transfer matrix method based on the Laplace transform is proposed to analyze the flow-induced ...
Pipes are widely used in industry and play a quite important role. A Coupling vibration induced by a...