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作 者:邹良浩[1,2] 温四清 董卫国 徐金虎[1,2] 梁枢果[1,2]
机构地区:[1]武汉大学土木建筑工程学院,湖北武汉430072 [2]武汉大学岩土与结构工程安全湖北省重点实验室,湖北武汉430072 [3]武汉市建筑设计院,湖北武汉430010
出 处:《武汉大学学报(工学版)》2010年第4期472-476,共5页Engineering Journal of Wuhan University
基 金:中国博士后科研基金项目(编号:20080440957)
摘 要:援莫桑比克国家体育场屋盖为典型的钢结构大跨度悬挑屋盖,风荷载为其结构设计的主要控制荷载.通过刚性模型表面测压风洞试验,得到了体育场屋盖的风压时程,并以此为基础,计算了屋盖表面各测点的风荷载相干函数,分析了屋盖结构不同区域测点之间表面风荷载相干函数的变化规律.另外,利用结构有限元模型,使用频域方法计算得到了结构的位移与内力均方根响应,分析了屋盖表面风荷载相干函数对风致位移和内力响应的影响以及振型数量和振型交叉项对屋盖风致位移和内力响应的贡献.结果分析表明,在进行结构风致响应计算时,不考虑各测点之间的相干函数,会低估结构的风振响应,不考虑结构振型交叉项的影响,也会导致计算结果较大的误差.National Stadium roof of aid Mozambique is typical steel large cantilevered roof;and wind loads are the main control loads of these structures.By rigid model wind tunnel tests of multi-point synchronous pressure,the wind pressure time series of stadium roof are obtained.Then based on the test results,the wind pressure coherence functions are evaluated;and the change rule of the coherence of the wind pressure in different regions is analyzed.On the other hand,the wind-induced root mean square(RMS)displacement and internal force responses are evaluated through the finite element model of the roof by using the method of frequency domain.In the mean time,influence of the coherence function of the roof,as well as contributions of the number of mode shape and the correlation between the modes to wind-induced displacement and internal force responses of roof,are analyzed.The analytical results show that the wind-induced dynamic responses of the roof would be underestimated when the wind pressure coherence is ignored;and the error of the results would be large if the correlation between the modes is neglected.
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