Cables can be viewed as composite structures obtained through assemblies of helical components in hierarchical levels [1]. Their internal geometry described by means of a recursive procedure based on the definition of a hierarchical tree and a mathematical model of the assembly process, which defines the relationship between components pertaining to different levels of the tree. In this paper a new procedure is proposed to evaluate their mechanical response accounting for the geometry of their internal structure and for possible internal sliding due to biaxial bending.
A MODEL FOR THE FRICTION CONTROLLED BENDING BEHAVIOUR OF CABLES
FOTI, FRANCESCO;MARTINELLI, LUCA
2011-01-01
Abstract
Cables can be viewed as composite structures obtained through assemblies of helical components in hierarchical levels [1]. Their internal geometry described by means of a recursive procedure based on the definition of a hierarchical tree and a mathematical model of the assembly process, which defines the relationship between components pertaining to different levels of the tree. In this paper a new procedure is proposed to evaluate their mechanical response accounting for the geometry of their internal structure and for possible internal sliding due to biaxial bending.File in questo prodotto:
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