密肋复合墙-剪力墙混合结构水平位移计算方法研究
|
摘要
密肋复合墙-剪力墙混合结构是把密肋复合墙与剪力墙组合起来,形成的一种新型联合抗侧力结构,有效解决了密肋结构在7度及以上地震烈度区建造高度、应用范围受限的问题。对水平荷载作用下复合墙-剪力墙结构的位移计算方法进行研究:依据Timoshenko梁基本理论,将密肋复合墙视为弯剪型悬臂墙,同时考虑其弯曲变形和剪切变形,采用变形连续化方法建立了结构体系的位移微分方程,以常见倒三角形荷载为例推导了密肋复合墙弯曲变形、剪切变形和结构总水平位移的解析表达式。算例分析表明:复合墙-剪力墙结构与框剪结构的刚度特征值、位移公式完全相容,后者可视为前者在复合墙抗弯刚度取无穷大时的一种特殊表现形式;结构侧移曲线呈现弯曲变形为主的弯剪型特征,但复合墙的剪切变形在总变形中占有一定比重,不应忽略。研究工作为复合墙-剪力墙结构的内力计算和抗震设计提供了基础。
Multi-grid composite wall-shear wall structure is a new type of resistant structure consisting of composite walls and shear-walls which can effectively solve some disadvantageous problems about multi-grid structure,such as the constraint of building height and application range in highly seismic area.Displacement calculating method for the structure subjected to horizontal loads was proposed.Based on Timoshenko beam theory,the composite wall was treated as shear-flexural type cantilever wall,and the displacement differential equation was established by using continuous deformation approach,then the analytical solutions were derived.The examples show that frame-shear structure can be regarded as one of special forms of composite wall-shear wall structures,and the whole lateral displacement curve of the structure expresses shear-flexural type characteristic in which shear deformation should not be ignored.The findings provide a theoretical basis to study and to calculate internal forces in anti-seismic design.
Multi-grid composite wall-shear wall structure is a new type of resistant structure consisting of composite walls and shear-walls which can effectively solve some disadvantageous problems about multi-grid structure,such as the constraint of building height and application range in highly seismic area.Displacement calculating method for the structure subjected to horizontal loads was proposed.Based on Timoshenko beam theory,the composite wall was treated as shear-flexural type cantilever wall,and the displacement differential equation was established by using continuous deformation approach,then the analytical solutions were derived.The examples show that frame-shear structure can be regarded as one of special forms of composite wall-shear wall structures,and the whole lateral displacement curve of the structure expresses shear-flexural type characteristic in which shear deformation should not be ignored.The findings provide a theoretical basis to study and to calculate internal forces in anti-seismic design.
引文
[1]河北省建设厅.密肋壁板结构技术规程(DB13(J)64-2006)[S].河北省工程建设标准,2006.
[2]张旭峰.密肋复合墙-剪力墙混合结构协同工作计算分析与实用设计方法研究[D].西安:西安建筑科技大学,2008.
[3]Xia L,Yao Q F,Chang P,et al.Seismic safety evaluationanalysis of a new building structure with multi-ribbed compositewall structure[C].Proceedings of International Conference onEarthquake Engineering:The First Anniversary of WenchuanEarthquake,2009:325-328.
[4]北京交通大学,等.具有多道抗震防线的耗能复合墙结构设计理论与关键技术研究[R].北京:北京交通大学,2009.
[5]黄炜,张程华,姚谦峰,等.密肋壁板结构简化计算模型对比分析[J].振动与冲击,2009,28(7):187-191.
[6]郭猛,姚谦峰,黄炜,等.水平荷载作用下密肋复合墙结构的变形计算[J].世界地震工程,2009,25(4):12-17.
[7]Timoshenko S,Gere J.材料力学[M].北京:科学出版社,1990.
[8]包世华,张铜生.高层建筑结构设计和计算[M].北京:清华大学出版社,2005.
[2]张旭峰.密肋复合墙-剪力墙混合结构协同工作计算分析与实用设计方法研究[D].西安:西安建筑科技大学,2008.
[3]Xia L,Yao Q F,Chang P,et al.Seismic safety evaluationanalysis of a new building structure with multi-ribbed compositewall structure[C].Proceedings of International Conference onEarthquake Engineering:The First Anniversary of WenchuanEarthquake,2009:325-328.
[4]北京交通大学,等.具有多道抗震防线的耗能复合墙结构设计理论与关键技术研究[R].北京:北京交通大学,2009.
[5]黄炜,张程华,姚谦峰,等.密肋壁板结构简化计算模型对比分析[J].振动与冲击,2009,28(7):187-191.
[6]郭猛,姚谦峰,黄炜,等.水平荷载作用下密肋复合墙结构的变形计算[J].世界地震工程,2009,25(4):12-17.
[7]Timoshenko S,Gere J.材料力学[M].北京:科学出版社,1990.
[8]包世华,张铜生.高层建筑结构设计和计算[M].北京:清华大学出版社,2005.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心