The paper introduces a numerical exact cable finite element model for the static nonlinear analysis of cable structures. The key highlights are:
The exact expression of the tension field is derived based on the geometrically exact beam theory and the fundamental mechanical properties of cables.
The equation system of the cable element is established by considering the equilibrium conditions at the element boundaries and the compatibility condition within the element.
In contrast to existing research, the present work aims to provide a cable element formulation with numerical accuracy and a wider range of applicability by directly deriving the linearized equations of the element with implicit expressions that include integrals.
The proposed cable element model is applicable to situations where the cross-sectional stiffness varies along the cable axis. It can not only achieve the solution of internal forces and deformation states, but also be used to determine the unstrained length of the cable.
The implementations of solutions based on complete tangent matrix and element internal iteration are introduced, and the efficacy of the proposed cable element is demonstrated through numerical examples.
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by Wenxiong Li,... klo arxiv.org 04-30-2024
https://arxiv.org/pdf/2401.05609.pdfSyvällisempiä Kysymyksiä