THE STUDY ON THE ALLOWABLE AXIAL LOAD RATIO OF CONCRETE SHEAR WALL WITHOUT CONFINED BOUNDARY ELEMENTS
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摘要: 混凝土剪力墙轴压比限值的确定方法是目前尚未很好解决的问题之一。通过理论分析和数值计算,研究不设置约束边缘构件时矩形截面剪力墙的轴压比限值。研究结果表明:在混凝土极限压应变给定时,影响无约束边缘构件混凝土剪力墙轴压比限值的主要因素为剪力墙的高宽比和顶点目标位移角值,混凝土强度、竖向分布钢筋强度和配筋率的影响较小。据此提出了根据剪力墙的高宽比和顶点目标位移角值确定其轴压比限值的方法。方法简单实用,可供修订规范时参考。Abstract: The problem of determining the allowable axial load ratio of concrete shear wall has not been completely solved.Through theoretical analysis and numerical calculation,the allowable axial load ratio of the rectangular crosssection shear wall without confined boundary elements has been studied.The results show that,to the given compressive ultimate strain of concrete,the aspect ratio and the target top displacement ratio are main factors which influence the allowable axial load ratio of the shear wall,the concrete strength,the strength and the ratio of vertical distribution reinforcement are less.Accordingly,a method of determining allowable axial load ratio in accordance with the aspect ratio and the target top displacement ratio is proposed.The method is simple and practical,it can also be used for revising the design code.
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GB 500112001建筑抗震设计规范[S]. [2] JGJ 32002高层建筑混凝土结构技术规程[S]. [3] Thomsen J H,Wallace J W.Displacement-Based Design of SlenderReinforced Concrete WallsExperimental Verification[J].Journal ofStructural Engineering,2004,130(4):618-630. [4] Wallace J W,Moehle J P.Ductility and Detailing Requirements ofBearing Wall Buildings[J].Journal of Structural Engineering,1992,118(6):1625-1644. [5] Paulay T,Priestley MJN.Seismic Design of Reinforced Concrete andMasonry Buildings[M].New York:John WileySons,Inc,1992:241-243. [6] 钱稼茹,徐福江.钢筋混凝土剪力墙基于位移的变形能力设计方法[J].清华大学学报(自然科学版),2007,43(3):1-4.
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