A finite element formulation for clustered cables with sliding-induced friction

Q1 Arts and Humanities

International Journal of Space Structures Pub Date : 2022-04-11 DOI:10.1177/09560599221084597

N. Bel Hadj Ali, Omar Aloui, L. Rhode-Barbarigos

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引用次数: 3

Abstract

Clustered (continuous) cables reflect an advantageous solution for reducing the number of tensile elements in engineering systems. During the tensioning or activation of tensile structures, such as cable structures, membranes and tensegrity structures, the deficiency of having to control too many elements can be overcome by employing clustered cables. The use of clustered cables has been shown to alter the structural behavior of tensile systems by modifying the force distribution in the systems. This effect has been showcased under the assumption of frictionless sliding of the cable elements across nodes or pulleys. However, friction can have also impact on the behavior of the system. In this paper, a new Finite Element formulation is proposed for the static analysis of tensile structures with clustered cables. The proposed formulation accommodates sliding-induced friction by the consideration of the Euler-Eytelwein equation as well as geometric nonlinearities. It is found that the sliding-induced friction can significantly modify the force distribution in the system. The applicability and importance of the proposed formulation is demonstrated through the analysis of two examples from the literature.

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具有滑动诱导摩擦的集群缆索的有限元公式

集群(连续)电缆反映了一种减少工程系统中拉伸元件数量的有利解决方案。在张拉结构(如索结构、膜结构和张拉整体结构)的张拉或激活过程中，可以通过使用束状索来克服必须控制太多元素的缺点。簇状电缆的使用已被证明可以通过改变系统中的力分布来改变拉伸系统的结构行为。这种效应已经在缆索元件在节点或滑轮上无摩擦滑动的假设下得到展示。然而，摩擦也会对系统的行为产生影响。本文提出了一种新的有限元计算公式，用于束索受拉结构的静力分析。提出的公式通过考虑欧拉-埃特尔魏因方程以及几何非线性来适应滑动引起的摩擦。研究发现，滑移摩擦对系统的受力分布有明显的影响。通过对文献中的两个例子的分析，证明了所提出的公式的适用性和重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Space Structures Arts and Humanities-Conservation

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The aim of the journal is to provide an international forum for the interchange of information on all aspects of analysis, design and construction of space structures. The scope of the journal encompasses structures such as single-, double- and multi-layer grids, barrel vaults, domes, towers, folded plates, radar dishes, tensegrity structures, stressed skin assemblies, foldable structures, pneumatic systems and cable arrangements. No limitation on the type of material is imposed and the scope includes structures constructed in steel, aluminium, timber, concrete, plastics, paperboard and fabric.