北京工人体育场屋面聚碳酸酯波形板力学性能试验研究
引用文献:
王猛 王彬 张发强 李夏杰. 北京工人体育场屋面聚碳酸酯波形板力学性能试验研究[J]. 建筑结构,2023,48(06):59-64,136.
WANG Meng WANG Bin ZHANG Faqiang LI Xiajie. Experimental study on mechanical properties of polycarbonate corrugated board for the roof of Beijing Workers Stadium[J]. Building Structure,2023,48(06):59-64,136.
摘要:北京工人体育场改造复建项目屋面采用聚碳酸酯波形板,对单块跨度3.5m的聚碳酸酯波形板分别进行了弹性阶段和破坏阶段的力学性能试验。试验通过设置不同数量支座以模拟不同跨度的聚碳酸酯波形板,试件分别是2支座约束的单跨板和3支座约束的双跨板,并根据项目的聚碳酸酯波形板实际安装情况,设置了水平和倾角安装方式。结果表明:在弹性阶段,3支座约束的双跨板刚度和承载能力显著增强;倾角安装方式下2支座约束的单跨板刚度大于水平安装方式,水平安装方式的双跨板在前6级加载下的刚度大于倾角安装方式。水平安装方式的双跨板破坏形式为局部发生断裂的脆性破坏,破坏时试验加载荷载为2.05kPa,最大应力为12.32MPa。研究结果表明3支座约束的双跨板在水平安装方式下的使用性能更优。
关键词:北京工人体育场;聚碳酸酯波形板;力学性能;约束类型;
基金:河北省省级科技计划资助(22375410D)。
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参考文献[1] 宋彻,俞欣,陈永生.天津奥林匹克中心体育场钢屋盖分析及优化设计[J].建筑结构,2009,39(11):20-23,80.
[2] 李晓刚.新型聚碳酸酯板屋面系统在深圳大运中心项目主体育馆中的应用[J].建筑技术,2010,41(4):365-368.
[3] 王群,杨清,伍彩单.上海浦东足球场金属屋面施工工艺研究[J].建筑施工,2021,43(9):1705-1708.
[4] 齐旭燕.聚碳酸酯高强度耐候板采光屋面施工技术[J].建筑施工,2018,40(7):1149-1151.
[5] 王世明.长沙南站聚碳酸酯双曲采光屋面施工技术[J].施工技术,2011,40(20):1-3.
[6] 韩煜资,刘刚.聚碳酸酯中空板在绿色建筑中的应用与研究[J].绿色环保建材,2018(8):196,198.
[7] 王群,杨清,伍彩单.上海浦东足球场金属屋面施工工艺研究[J].建筑施工,2021,43(9):1705-1708.
[8] 顾书英,许乾慰,张懿.聚碳酸酯板的特性及其在建筑领域的应用[J].工程塑料应用,2013,41(1):105-108.
[9] 李旭彬,吴彦磊,黄旭,等.聚碳酸酯模板在装配式住宅工程中的应用[J].建筑技术开发,2021,48(24):122-124.
[10] 盛平,张龑华,甄伟,等.北京工人体育场结构改造设计方案及关键技术[J].建筑结构,2021,51(19):1-6.
[2] 李晓刚.新型聚碳酸酯板屋面系统在深圳大运中心项目主体育馆中的应用[J].建筑技术,2010,41(4):365-368.
[3] 王群,杨清,伍彩单.上海浦东足球场金属屋面施工工艺研究[J].建筑施工,2021,43(9):1705-1708.
[4] 齐旭燕.聚碳酸酯高强度耐候板采光屋面施工技术[J].建筑施工,2018,40(7):1149-1151.
[5] 王世明.长沙南站聚碳酸酯双曲采光屋面施工技术[J].施工技术,2011,40(20):1-3.
[6] 韩煜资,刘刚.聚碳酸酯中空板在绿色建筑中的应用与研究[J].绿色环保建材,2018(8):196,198.
[7] 王群,杨清,伍彩单.上海浦东足球场金属屋面施工工艺研究[J].建筑施工,2021,43(9):1705-1708.
[8] 顾书英,许乾慰,张懿.聚碳酸酯板的特性及其在建筑领域的应用[J].工程塑料应用,2013,41(1):105-108.
[9] 李旭彬,吴彦磊,黄旭,等.聚碳酸酯模板在装配式住宅工程中的应用[J].建筑技术开发,2021,48(24):122-124.
[10] 盛平,张龑华,甄伟,等.北京工人体育场结构改造设计方案及关键技术[J].建筑结构,2021,51(19):1-6.
Experimental study on mechanical properties of polycarbonate corrugated board for the roof of Beijing Workers Stadium
Abstract: The roof of the Beijing Workers' Stadium renovation and rehabilitation project adopts polycarbonate corrugated boards, and the experimental on mechanical properties of the single polycarbonate corrugated board with a span of 3.5m were tested in the elastic stage and the failure stage respectively. The test set up different numbers of supports to simulate different spans of polycarbonate corrugated board, the test specimens were 2-support constrained single-span plate and 3-support constrained double-span plate, and according to the actual installation of the project engineering polycarbonate corrugated board, horizontal and inclined installation methods were set up. The results show that the stiffness and bearing capacity of the 3-support constrained double-span plate is significantly enhanced in the elastic stage. The stiffness of the 2-support constrained single-span plate under the inclination installation method is greater than that of the horizontal installation method, the double-span plate of the horizontal installation method has a greater stiffness than the inclination installation method under the first 6 stages of loading. The double-span plate failure form of the horizontal installation method is the brittle failure of local fracture, and the test load is 2.05kPa and the maximum stress is 12.32MPa. The results show that the 3-support constrained double-span plate is better in horizontal installation.
Keywords: Beijing Workers Stadium; polycarbonate corrugated board; mechanical properties; constraint type
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