Non-linear dynamics and stability of circular cylindrical shells conveying flowing fluid

The study presented is an investigation of the non-linear dynamics and stability of simply supported, circular cylindrical shells containing inviscid incompressible #uid #ow. Non-linearities due to large-amplitude shell motion are considered by using the non-linear Donnell's shallow shell theory, wi

The response of a shell conveying #uid to harmonic excitation, in the spectral neighbourhood of one of the lowest natural frequencies, is investigated for di!erent #ow velocities. The theoretical model has already been presented in Part I of the present study. Non-linearities due to moderately large

The non-linear response of empty and #uid-"lled circular cylindrical shells to harmonic excitations is investigated. Both modal and point excitations have been considered. The model is suitable to study simply supported shells with and without axial constraints. Donnell's non-linear shallow-shell th

The response of simply supported circular cylindrical shells to harmonic excitation in the spectral neighbourhood of one of the lowest natural frequencies is investigated by using improved mode expansions with respect to those assumed in Parts I and II of the present study. Two cases are studied: (1