Seismic Performance Analysis of Steel-Concrete Composite Structural System for Rail Transit Co-Construction Projects
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摘要: 随着城市轨道交通的发展和地上地下空间一体化概念的深化,轨道交通共构工程已经成为以公共交通为导向的开发模式的新方向。依托东莞市西平站工程,针对大跨楼盖和转换梁区域设计了组合结构方案,降低梁高28%~33%,降低自重49%~66%,节省造价7%~36%。利用盈建科和MIDAS Gen建立型钢混凝土结构和组合结构整体模型,开展了不同地震作用下两种结构的抗震性能分析。二者的自振特性接近,罕遇地震下组合结构的层间位移角更小,抗震性能更优。值得注意的是,转换梁区域弯扭耦合效应显著,扭矩达2 719.4 kN·m;大跨交叉节点钢结构应力水平较高,达207 MPa。Abstract: With the development of urban rail transit and the deepening of integration of under-and above-ground urban space, the rail transit co-construction project has become a new direction of the public transportation-oriented development mode. Relying on the Dongguan Xiping Station project, a combined structural scheme was designed for the long-span building cover and conversion beam area, which could reduce the height of beams by 28%-33%, the dead weight by 49%-66%, and the cost by 7%-36%. The overall model of the steel reinforced concrete structure and the steel-concrete composite structure were established and the seismic performance analysis of the two structures under different earthquake was carried out by YJK and MIDAS Gen. The composite structure decreased the interlayer displacement angle under rarely occurred earthquake, which suggested that it showed a better seismic resistance while maintaining natural vibration characteristics similar to the steel reinforced concrete structure. It was notable that the bending-torsional coupling effect in the transformation beam area is significant, resulting in the torque reached up to 2 719.4 kN·m; and the stress of the long-span steel structure reached up to 207 MPa.
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