NONLINEAR ANALYSIS OF THE PARAMETRIC RESONANCES OF A PLANAR FLUID-CONVEYING CANTILEVERED PIPE

Active vibration suppression of a fluid conveying cantilever pipe with geometric non-linearity due to post-critical flow speed is examined. The non-linear characteristics of the system is described using the fictitious load approach and the dynamic responses can be obtained using successive co-ordin

In their paper [1] Lundgren, Sethna and Bajaj have made a theoretical and experimental study of self-induced non-planar vibrations of a #exible tube conveying a #uid. The tube was "xed at one end and the #uid issued from a nozzle inclined to the axis of the tube at the free end. In order to study th

Instead of the &&functional'' mode shapes (de"ned by the admissible, comparison or eigenfunctions) employed by the classical assumed mode (or modal analysis) method, the lowest several &&numerical'' (or vector) mode shapes and the associated natural frequencies of a &&non-periodic'' multispan pipe w

A new non-linear model of a straight pipe conveying #uid is presented for vibration analysis when the pipe is "xed at both ends. Using the Euler}Bernoulli beam theory and the non-linear Lagrange strain theory, from the extended Hamilton's principle the coupled non-linear equations of motion for the