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Stiffness of three-bar tensegrity structure

刚度 张拉整体 结构工程 变形(气象学) 扭转(腹足类) 有限元法 切线刚度矩阵 工程类 刚度矩阵 材料科学 复合材料 外科 医学
作者
Ani Luo,Ziying Cao,Heping Liu,Yaming Feng
出处
期刊:Engineering Computations [Emerald Publishing Limited]
卷期号:40 (4): 823-835 被引量:11
标识
DOI:10.1108/ec-10-2022-0642
摘要

Purpose In this paper, the main factors influencing the structure stiffness will be analyzed by studying the tangent stiffness matrix based on different requirement in engineering practice. The authors can obtain the deformation of three-bar tensegrity basic unit in different load, and gain the primary factor by comparing the deformation, which will provide reference to concrete structure design in the engineering. Design/methodology/approach The mathematical model of tensegrity structure was built by establishing generalized node coordinates and connective matrix. Three main factors that affect the structure deformation can be obtained by analyzing the stiffness matrix, which is preload, Young's modulus, and cross-sectional area, the thinking of deformation also be sorted out. The deformation analysis of the concrete structure is carried out, and it is concluded that increasing the cross-sectional area can quickly improve the stiffness of the structure, which provides a reference for the structural variable stiffness design in practical engineering. Findings (1) When the axial external force is applied to the structure, the torsion-angle deformation of the structure is the largest, and the radial deformation of the structure is the smallest. (2) The structure stiffness can be rapidly enhanced by increasing the cross-sectional area. But the cross-sectional area can't be increased indefinitely. Because the mass will be increased once increasing the cross-sectional area, which will destroy the structure of the advantages of light weight in engineering practice. Originality/value The deformation analysis of the concrete structure is carried out, and it is concluded that increasing the cross-sectional area can quickly improve the stiffness of the structure, which provides a reference for the structural variable stiffness design in practical engineering.
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