大跨度斜拉立体桁架的自振特性分析
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摘要
采用分块兰索斯法(BLOCK LANCZOS)计算了大跨度斜拉立体桁架的自振频率与振型,分析总结了该结构的自振特性的特点,探讨了跨度、塔高、塔柱的刚度、桁架高度、拉索的间距和拉索刚度以及屋面荷载等参数对结构自振频率的影响。计算表明,大跨度斜拉立体桁架结构体系频谱分布比较密集且具有较低的自振频率。文中得出的一些结论,对工程结构的设计与分析具有一定参考价值。
The natural frequencies and shapes for a long span cable-stayed space truss are investigated by using block Lanczos method in this paper.The characteristics of natural frequency can be summarized.Finally,influences of some parameters,such as span,height of tower,rigidity of tower,height of space truss,space between cables,stiffness of cable and load of roofs,on frequency behavior of the space truss are studied.The results are shown that natural freguencies of the long span cable-stayed space truss are denser and lower.The conclusions have referential values for the application and research of the space truss.
The natural frequencies and shapes for a long span cable-stayed space truss are investigated by using block Lanczos method in this paper.The characteristics of natural frequency can be summarized.Finally,influences of some parameters,such as span,height of tower,rigidity of tower,height of space truss,space between cables,stiffness of cable and load of roofs,on frequency behavior of the space truss are studied.The results are shown that natural freguencies of the long span cable-stayed space truss are denser and lower.The conclusions have referential values for the application and research of the space truss.
引文
[1]蓝天.大跨度屋盖结构抗震设计[M].北京:中国建筑工业出版社,2000.
[2]曹资,薛素铎.空间结构抗震理论与设计[M].北京:科学出版社,2005.
[3]曹资,张毅刚.大跨空间网壳结构动力性能与地震反应研究[C]∥大型复杂结构体系的关键科学问题及设计理论研究论文集.大连:大连理工大学出版社,1999:217-225.
[4]韩庆华,裴波,王成博,等.预应力组合网架结构的自振特性分析及现场测试[J].地震工程与工程振动,2004,24(2):118-124.
[5]严慧,熊卫.斜拉网架结构静力、动力特性的研究[J].工程力学,1994(增刊):1379-1384.
[6]周岱,沈祖炎.斜拉网壳结构的构件分析和非线性动力计算[J].土木工程学报,1999,32(6):40-46.
[7]顾德敏,王爱国.某游泳跳水馆钢屋盖结构自振特性和风振动力响应分析[J].Steel Construction,2002,17(1):35-38.
[8]Brownjohn J MW,Lees,Cheong B.Dynamic performance of a curved cable-stayed bridge[J].Engineering Structures,1999,21(9/10):1015-1027.
[9]Clough RW,Penzien J.Dynamics of Structures[M].McGaw-Hill Inc,1993.
[10]Ren W X,Obata M.Elastic-plastic seismic behavior of long span cable-stayed bridges[J].J.Bridge Engrg.,1999,4(3):194-203.
[11]孙建琴,吴敏哲,李从林.斜拉立体桁架内力、位移特征及设计中的若干问题[J].建筑结构,2006,36(12):96-99.
[2]曹资,薛素铎.空间结构抗震理论与设计[M].北京:科学出版社,2005.
[3]曹资,张毅刚.大跨空间网壳结构动力性能与地震反应研究[C]∥大型复杂结构体系的关键科学问题及设计理论研究论文集.大连:大连理工大学出版社,1999:217-225.
[4]韩庆华,裴波,王成博,等.预应力组合网架结构的自振特性分析及现场测试[J].地震工程与工程振动,2004,24(2):118-124.
[5]严慧,熊卫.斜拉网架结构静力、动力特性的研究[J].工程力学,1994(增刊):1379-1384.
[6]周岱,沈祖炎.斜拉网壳结构的构件分析和非线性动力计算[J].土木工程学报,1999,32(6):40-46.
[7]顾德敏,王爱国.某游泳跳水馆钢屋盖结构自振特性和风振动力响应分析[J].Steel Construction,2002,17(1):35-38.
[8]Brownjohn J MW,Lees,Cheong B.Dynamic performance of a curved cable-stayed bridge[J].Engineering Structures,1999,21(9/10):1015-1027.
[9]Clough RW,Penzien J.Dynamics of Structures[M].McGaw-Hill Inc,1993.
[10]Ren W X,Obata M.Elastic-plastic seismic behavior of long span cable-stayed bridges[J].J.Bridge Engrg.,1999,4(3):194-203.
[11]孙建琴,吴敏哲,李从林.斜拉立体桁架内力、位移特征及设计中的若干问题[J].建筑结构,2006,36(12):96-99.
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