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A platform for research: civil engineering, architecture and urbanism
A simple finite element to consider the non-linear influence of the ballast on vibrations of railway bridges
Abstract This article proposes a new and simple finite element which can be used to analyze vertical vibrations in railway bridges. The main feature of the element is that the effect of the ballast is introduced through a non-linear longitudinal stiffness associated to the slip at the interface between the bridge and the ballast. Two numerical applications show that this element can be used to model the variation of the natural frequencies of the bridge as a function of the amplitude of vibration.
Highlights ► A finite element model which considers the effect of the ballast in railway bridges is proposed. ► The ballast stiffness is introduced through a non linear spring at the interface ballast/bridge. ► The model allows a better estimation of natural frequencies.
A simple finite element to consider the non-linear influence of the ballast on vibrations of railway bridges
Abstract This article proposes a new and simple finite element which can be used to analyze vertical vibrations in railway bridges. The main feature of the element is that the effect of the ballast is introduced through a non-linear longitudinal stiffness associated to the slip at the interface between the bridge and the ballast. Two numerical applications show that this element can be used to model the variation of the natural frequencies of the bridge as a function of the amplitude of vibration.
Highlights ► A finite element model which considers the effect of the ballast in railway bridges is proposed. ► The ballast stiffness is introduced through a non linear spring at the interface ballast/bridge. ► The model allows a better estimation of natural frequencies.
A simple finite element to consider the non-linear influence of the ballast on vibrations of railway bridges
Battini, Jean-Marc (author) / Ülker-Kaustell, Mahir (author)
Engineering Structures ; 33 ; 2597-2602
2011-05-02
6 pages
Article (Journal)
Electronic Resource
English