中高层异形柱框—剪结构的剪力墙抗侧移刚度优化分析
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摘要
综合考虑剪力墙的剪切变形、异形框架柱的轴向变形和连梁刚度对异形柱框—剪结构的抗侧移刚度的影响,利用框—剪结构空间协同分析的连续—离散化方法,以楼层划分单元推导单元的内力、位移关系式,同时采用振型分解反应谱法计算水平地震作用,并考虑层间位移约束条件及刚重比、剪重比等构造要求,建立了中高层钢筋混凝土刚接异形柱框—剪结构的剪力墙抗侧移刚度优化数学模型。工程算例结果表明,本优化模型可行、有效,而且当剪力墙的抗侧移刚度沿结构高度发生变化时,仍可对其进行优化分析。
The effects of the shear deformation of shear wall,the axial deformation of special-shaped columns and the stiffness of binding beams on the lateral stiffness of frame-shearwall structure with special-shaped columns are considered.Based on the principle of continuous-discretized analysis of interactive frame-shearwall structures,and formula for innerforces and displacements of elements are developed by dividing floors into element,horizontal earthquake action are calculated by using the response spectrum and a mathematical model is constructed with interstorey drift,the ratio of lateral stiffness to gravity,storey shear to gravity as constrained conditions.An example shows the model was feasible and effective,and it is suitable for frame-shearwall structure with variable lateral rigidity along height.
The effects of the shear deformation of shear wall,the axial deformation of special-shaped columns and the stiffness of binding beams on the lateral stiffness of frame-shearwall structure with special-shaped columns are considered.Based on the principle of continuous-discretized analysis of interactive frame-shearwall structures,and formula for innerforces and displacements of elements are developed by dividing floors into element,horizontal earthquake action are calculated by using the response spectrum and a mathematical model is constructed with interstorey drift,the ratio of lateral stiffness to gravity,storey shear to gravity as constrained conditions.An example shows the model was feasible and effective,and it is suitable for frame-shearwall structure with variable lateral rigidity along height.
引文
[1]赵西安.钢筋混凝土高层建筑结构设计(第二版)[M].北京:中国建筑工业出版社,1995.
[2]傅学怡.高层建筑主体结构断面数量的合理确定[J].建筑结构学报,1987,5(8):28-41.
[3]贺友双.框剪结构最优抗震墙量及自振周期计算法[J].工程抗震,1992,(1):10-13.
[4]韦鹏生,王全凤.多因素对剪力墙最优刚度影响的综合分析[J].工程力学,1996,13(2):61-68.
[5]黄世敏,魏琏,程绍革.地震区框架—剪力墙结构最优剪力墙数量的研究[J].工程抗震,2003,(3):1-5.
[6]黄世敏,魏琏.地震作用下沿高变刚度框剪结构的计算方法[J].建筑科学,1997,(4):11-15.
[7]李从林,赵建昌.变刚度框剪结构协同分析的连续离散化方法[J].建筑结构,1993,(3):7-10.
[8]JGJ 3-2002,高层建筑混凝土结构技术规程[S].北京:中国建筑工业出版社,2002.
[9]肖建庄,葛亚杰,黄珏.异型柱结构内力分析研究[J].结构工程师,2002,(3):23-28.
[10]王滋军,刘伟庆,蒋永生.钢筋混凝土异形柱框架—抗震墙结构体系[J].南京建筑工程学院学报,2002,(4):7-12.
[11]王丹.钢筋混凝土框架异形柱设计理论研究[D].大连:大连理工大学,2002.
[12]戴教芳.多层框架异形柱设计探索[J].工业建筑,1996,26(6):33-35.
[13]DB 29-16-98,大开间住宅钢筋混凝土异形柱框轻结构技术规程[S].1998.
[2]傅学怡.高层建筑主体结构断面数量的合理确定[J].建筑结构学报,1987,5(8):28-41.
[3]贺友双.框剪结构最优抗震墙量及自振周期计算法[J].工程抗震,1992,(1):10-13.
[4]韦鹏生,王全凤.多因素对剪力墙最优刚度影响的综合分析[J].工程力学,1996,13(2):61-68.
[5]黄世敏,魏琏,程绍革.地震区框架—剪力墙结构最优剪力墙数量的研究[J].工程抗震,2003,(3):1-5.
[6]黄世敏,魏琏.地震作用下沿高变刚度框剪结构的计算方法[J].建筑科学,1997,(4):11-15.
[7]李从林,赵建昌.变刚度框剪结构协同分析的连续离散化方法[J].建筑结构,1993,(3):7-10.
[8]JGJ 3-2002,高层建筑混凝土结构技术规程[S].北京:中国建筑工业出版社,2002.
[9]肖建庄,葛亚杰,黄珏.异型柱结构内力分析研究[J].结构工程师,2002,(3):23-28.
[10]王滋军,刘伟庆,蒋永生.钢筋混凝土异形柱框架—抗震墙结构体系[J].南京建筑工程学院学报,2002,(4):7-12.
[11]王丹.钢筋混凝土框架异形柱设计理论研究[D].大连:大连理工大学,2002.
[12]戴教芳.多层框架异形柱设计探索[J].工业建筑,1996,26(6):33-35.
[13]DB 29-16-98,大开间住宅钢筋混凝土异形柱框轻结构技术规程[S].1998.
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