萍乡奥体中心游泳馆结构设计
引用文献:
谢先义 鲁浩 邱剑. 萍乡奥体中心游泳馆结构设计[J]. 建筑结构,2022,48(04):63-68.
XIE Xianyi LU Hao QIU Jian. Structural design of natatorium of Pingxiang Olympic Sports Center[J]. Building Structure,2022,48(04):63-68.
摘要:介绍了萍乡奥体中心游泳馆的设计标准、荷载取值、下部结构体系、屋盖钢结构体系、支座设计及Y形柱设计。对建筑室内空间进行分析,通过多轮结构方案比选,最终钢屋盖主体采用张弦梁与单层网格相结合的结构体系,最大程度保留建筑净高,同时适当地将室内对建筑无影响的框架柱伸至屋面,有效减小屋盖跨度,从而形成Y形柱、张弦梁及单层网格组合结构方案。建立钢结构屋盖单体模型及带下部结构的整体模型,对两者在恒活荷载作用下的内力及竖向位移进行了对比分析,结果表明准确模拟支座的约束条件非常重要。钢结构屋盖跨度较大,对各荷载组合进行线性屈曲分析,并以屈曲因子最小的荷载组合为初始荷载,进行非线性稳定分析,分析结果均满足规范要求。
关键词:萍乡奥体中心游泳馆,钢结构屋盖,Y形柱,线性屈曲分析,非线性稳定分析
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[3] 萍乡奥体中心风致响应及等效静力风荷载研究报告[R].长沙:湖南大学风工程试验研究中心,2018.
[4] 冯咏钢,黄伟,龚文伟,等.西宁海湖体育中心体育场结构设计[J].建筑结构,2017,47(19):67-72.
[5] 胡文进,王新,温四清,等.新疆国际会展中心二期结构设计[J].建筑结构,2018,48(17):8-12.
[6] 赵思远,郭彦林,张旭乔,等.张弦梁平面外弹性稳定性能研究[J].工程力学,2013,30(12):49-56.
[7] 空间网格结构技术规程:JGJ 7—2010[S].北京:中国建筑工业出版社,2011.
[8] 钢结构设计标准:GB 50017—2017[S].北京:中国建筑工业出版社,2018.
[9] 马青,陈志华,闫翔宇,等.广饶国际博览中心弦支网壳屋盖结构设计[J].建筑结构,2019,49(4):13-18.
[10] 赵阳,田伟,苏亮,等.世博轴阳光谷钢结构稳定性分析[J].建筑结构学报,2010,31(5):27-33.
Structural design of natatorium of Pingxiang Olympic Sports Center
Abstract: The design standard, load value, substructure system, steel roof structure system, support design and Y-shaped column design of the natatorium of Pingxiang Olympic Sports Center were introduced. The interior space of the building were analyzed, and through multiple rounds of structural scheme comparison and selection, finally steel roof main body adopted a structural system that combines a string beam and a single-layer grid, which preserves the net height of the building to the greatest extent. And at the same time, the interior space that the frame column has no impact on the building extend to the roof, and the span of the roof was effectively reduced. Thus a Y-shaped column, string beam and single-layer grid composite structure was formed. A single steel structure roof model and an overall model with substructure were established, and the internal force and vertical displacement of the two under constant live load were compared and analyzed. The results show that it is very important to accurately simulate the restraint conditions of the support. The steel structure roof has a large span. Linear buckling analysis was performed on each load combination, and the load combination with the smallest buckling factor was used as the initial load to perform nonlinear stability analysis. The analysis results all meet the requirements of the code.
Keywords: natatorium of Pingxiang Olympic Sports Center; steel roof structure; Y-shaped column; linear buckling analysis; nonlinear stability analysis
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