柔性巨型摩天轮的非线性分析与研究

Feng Zhao, Jiemin Ding
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引用次数: 2

摘要

柔性巨型摩天轮集刚性轮圈和柔性索于一体,外形庞大,结构形式独特。边界条件非常复杂,受温度、缺陷、冗余等敏感因素的影响较大。结合柔性巨型摩天轮工程实例,对轮辋和钢索的受力性能进行了分析。选取合理的初始预应力,优化结构性能。通过考虑初始缺陷的稳定性分析,研究了结构的非线性屈曲特性。考虑几何非线性和材料非线性,弹塑性极限承载力分析全面揭示了结构特性。结果表明:由于预应力索的引入,柔性巨型摩天轮具有明显的非线性特征;结构的力学性能取决于初始预应力;辐射状辐索和空间桁架组成的车轮具有较强的侧向刚度和抗扭刚度,稳定性能良好;塑性发展机制是有益的,弹塑性极限承载力大,使车轮既能满足运行条件,又能满足风暴条件。
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Nonlinear analysis and research of flexible giant Ferris wheel
Integrating rigid rim with flexible cables, flexible giant Ferris wheel is huge in figure and special in structure form. The boundary conditions are very complex and it is much influenced by the sensitivity factors such as temperature, defect, and redundancy. Combined with a project example of flexible giant Ferris wheel, mechanical performance for rim and cables were analyzed. The rational initial prestress was chosen to optimize the structural behaviour. The stability analysis considering the initial imperfection was performed to research the nonlinear buckling characteristics. Taking the geometric and material nonlinearity into account, the elasto-plastic limit bearing capacity analysis revealed the structural characteristics comprehensively. The results indicated that: nonlinear characteristics of flexible giant Ferris wheel is obvious due to the introduction of prestressed cable; mechanical performance of the structure depends on the initial prestressing force; the wheel consisting of radiate spoke cables and space truss provides strong lateral stiffness as well as torsional stiffness and the stability performance is favorable; the plastic development mechanism is beneficial and the elasto-plastic limit bearing capacity is so large that the wheel can satisfy the need both for operating condition and for storm condition.
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