Cables under very low tension may become highly contorted and form loops, tangles, knots and kinks. These nonlinear deformations, which are dominated by flexure and torsion, pose serious concerns for cable deployment. Simulation of the three-dimensional nonlinear dynamics of loop and tangle formation requires a 12th order rod model and the computational effort increases rapidly with increasing cable length and integration time. However, marine cable applications which result in local zones of low-tension very frequently involve large zones of high-tension where the effects of flexure and torsion are insignificant. Simulation of the three-dimensional dynamics of high-tension cables requires only a 6th order catenary model which significantly...
Marine cables are primarily designed to support axial loads. The effect of bending stiffness on the ...
We extend an idea of the modeling flexible umbilical cable using a nonlinear finite element method t...
AbstractThis paper presents a variational model formulation that can be used for analyzing the three...
ABSTRACT Cables under very low tension may become highly contorted and form loops, tangles, knots an...
Marine cables under low tension and torsion on the sea floor can form highly contorted three-dimensi...
A theoretical model governing the two-axis flexure, torsion and extension of an elastic cable is der...
This study presents a general set of three-dimensional dynamic field equations, boundary conditions ...
We simulate the nonlinear dynamic responses in Kirchhoff rod by including the important effects due ...
The objective of this research is to predict the dynamics of a cable subjected to aerodynamic/hydrod...
Marine cables under low tension and torsion form loops and tangles. In this context, loops are somet...
Author Posting. © Elsevier B.V., 2007. This is the author's version of the work. It is posted here ...
The oil and gas industry today is a heavily regulated segment, and current standard ha...
In this paper the feasibility of a reduced order model (ROM) for the hydroelastic ana...
This article presents how to do stability analysis, variation simulation and tolerance envelopes for...
This dissertation contributes a computational 'rod' model that captures arbitrarily large dynamic be...
Marine cables are primarily designed to support axial loads. The effect of bending stiffness on the ...
We extend an idea of the modeling flexible umbilical cable using a nonlinear finite element method t...
AbstractThis paper presents a variational model formulation that can be used for analyzing the three...
ABSTRACT Cables under very low tension may become highly contorted and form loops, tangles, knots an...
Marine cables under low tension and torsion on the sea floor can form highly contorted three-dimensi...
A theoretical model governing the two-axis flexure, torsion and extension of an elastic cable is der...
This study presents a general set of three-dimensional dynamic field equations, boundary conditions ...
We simulate the nonlinear dynamic responses in Kirchhoff rod by including the important effects due ...
The objective of this research is to predict the dynamics of a cable subjected to aerodynamic/hydrod...
Marine cables under low tension and torsion form loops and tangles. In this context, loops are somet...
Author Posting. © Elsevier B.V., 2007. This is the author's version of the work. It is posted here ...
The oil and gas industry today is a heavily regulated segment, and current standard ha...
In this paper the feasibility of a reduced order model (ROM) for the hydroelastic ana...
This article presents how to do stability analysis, variation simulation and tolerance envelopes for...
This dissertation contributes a computational 'rod' model that captures arbitrarily large dynamic be...
Marine cables are primarily designed to support axial loads. The effect of bending stiffness on the ...
We extend an idea of the modeling flexible umbilical cable using a nonlinear finite element method t...
AbstractThis paper presents a variational model formulation that can be used for analyzing the three...