Data di Pubblicazione:
2013
Citazione:
Nonlinear in-plane vibrations of inclined cables carrying
moving oscillators / Sofi, A.. - In: JOURNAL OF SOUND AND VIBRATION. - ISSN 0022-460X. - 332:7(2013), pp. 1712-1724. [10.1016/j.jsv.2012.11.012]
Abstract:
In-plane dynamics of small-sag inclined cables carrying a stream of oscillators moving
with arbitrarily varying velocity is addressed. A condensed model of the coupled cablemoving
oscillators system is derived by referring cable vibrations to a local Cartesian
coordinate system. Specifically, relying on the negligible influence of the inertia forces
along the cable chord and assuming a quasi-static stretching during the motion, an
appropriate static condensation procedure is applied which enables to account for the
chordwise components of the interaction forces between the cable and the moving subsystems
. Thus, the governing equations are reduced to a unique nonlinear integrodifferential
equation in the transverse displacement of the cable coupled to the ordinary
differential equations ruling the response of the moving oscillators in terms of absolute
displacements. The condensed model is discretized by the Galerkin method assuming an
improved series expansion of cable response able to accurately reproduce the abrupt
changes of cable profile at the contact points with the moving oscillators.
A numerical application is presented to validate the proposed condensed model of the
inclined cable under moving oscillators as well as the improved series representation of
cable response.
with arbitrarily varying velocity is addressed. A condensed model of the coupled cablemoving
oscillators system is derived by referring cable vibrations to a local Cartesian
coordinate system. Specifically, relying on the negligible influence of the inertia forces
along the cable chord and assuming a quasi-static stretching during the motion, an
appropriate static condensation procedure is applied which enables to account for the
chordwise components of the interaction forces between the cable and the moving subsystems
. Thus, the governing equations are reduced to a unique nonlinear integrodifferential
equation in the transverse displacement of the cable coupled to the ordinary
differential equations ruling the response of the moving oscillators in terms of absolute
displacements. The condensed model is discretized by the Galerkin method assuming an
improved series expansion of cable response able to accurately reproduce the abrupt
changes of cable profile at the contact points with the moving oscillators.
A numerical application is presented to validate the proposed condensed model of the
inclined cable under moving oscillators as well as the improved series representation of
cable response.
Tipologia CRIS:
1.1 Articolo in rivista
Elenco autori:
Sofi, Alba
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