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钢筋混凝土抗震框架节点受力机理及轴压比影响的试验研究 被引量:44

Experimental investigation of shear mechanism and effect of axial-compression ratio on joints in earthquake-resistant reinforced concrete frames
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摘要 通过19个剪压比水平和轴压比水平不同的接近足尺的钢筋混凝土框架中间层中间节点梁柱组合体的低周反复加载试验,对节点的传力机理以及轴压比对节点抗震性能的影响规律进行了分析研究,取得了以下结果:(1)随着轴压比的增加,梁筋在节点内的粘结滑移量明显减小。节点的作用剪力较大时,梁筋的粘结退化加剧;(2)通过对节点内不同受力阶段箍筋应变的量测,明确了平行受力方向箍肢除承受桁架机构的拉力外,还与垂直受力方向的箍肢一起对节点核心区双向交替斜向受压混凝土发挥重要约束作用;(3)节点作用剪力在中等以上作用水平时,轴压比的增大对节点抗震抗剪的延性起不利作用。 Reversed cyehc tests of 19 nearly full-scale interior beam-column joints of reinforced concrete frames, with different shear compression ratios and axial compression ratios, were carried out to investigate the shear transfer mechanism in the joint and the effect of the axial compression ratio to the seismic behavior of the joint. The conclusions are drawn as follows: ( 1 ) Bond slip of the beam rebars from the joint is significantly decreased as the axial compression ratio increases. At higher level of shear in the joint, the bond deterioration of beam rebars has increased; (2) Measurements on the stirrup strains in the joint show that the stirrup lag parallel in the direction of acting force not only sustains the tension in the truss mechanism, but also confines the reversed cyclic diagonal compressive concrete strut in the joint core; (3)It is confirmed that when the acting shear in the joint is moderate or greater, increase of the axial compression ratio is significantly unfavorable to the ductility in seismic shear.
作者 傅剑平 张川 陈滔 白绍良
机构地区 重庆大学土木工程学院
出处 《建筑结构学报》 EI CAS CSCD 北大核心 2006年第3期67-77,共11页 Journal of Building Structures
基金 国家自然科学基金资助项目(59878056)
关键词 钢筋混凝土框架 抗震设计 梁柱节点 轴压比 箍筋约束作用 reinforced concrete frame seismic design beam-column joint axial-compression ratio confinement of stirrups,
分类号 TU375.4 [建筑科学—结构工程] TU317.1 [建筑科学—结构工程]
作者简介 傅剑平(1953-),男,辽宁本溪人,工学博士,教授。
  • 相关文献

参考文献12

  • 1K Kitayama,S Otani,H Aoyama.Development of design criteria for RC Interior beam-column joints,design of beamcolumn joints for seismic resistance[R].Sp-123,ACI,Detroit,1991,145-165.
  • 2T Paulay,R Park,M J N Priestley.Reinforced concrete beamcolumn joints under seismic actions[J].ACI Journal,1978,25(11)585-593.
  • 3Building code requirements for structure concrete (ACI318-02)and commentary (ACI318R-02)[S].American Concrete Institute,2002.
  • 4ACI-ASCE Committee 352 Recommendation for design of beamcolumn joints in reinforced concrete structures[S].1991.
  • 5A J Durrani,J K Wight.Behavior of interior beam-to-column connection under earthquake type loading[J].ACI Journal,Proceedings,1985,82 (3):343-350.
  • 6GB50010-2002.混凝土结构设计规范[S].[S].,..
  • 7New Zealand Standard,NZS 3101:Part 1 Concrete structures standard,Part 1-The design of concrete structures[S].1995.
  • 8傅剑平,张川,白绍良.钢筋混凝土抗震框架节点各机构传递剪力的定量分析[J].建筑结构学报,2005,26(1):91-96. 被引量:19
  • 9粘结锚固专题组.钢筋混凝土粘结锚固的研究及设计建议[J].建筑结构,1986,(4):2-2.
  • 10Y Kurase.Recent studies on reinforced concrete beam-column joints in Japan[R].PMFSEL Report No.87-8,University of Texas at Austin,1987.

二级参考文献5

  • 1程绍革 王迪民 巩正光译.欧洲规范8建筑结构抗震设计规定[R].中国建筑科学研究院建筑抗震研究所,1997..
  • 2PAULAY T, PARK R, PRIESTLY M J N. Reinforced concrete beam-column joints under seismic actions[J]. ACI Journal, 1978, 75(11): 585 -593.
  • 3NZS 3101 New Zealand standard code of practice for the design of concrete structures [ S ]. Standard Association of New Zealand, 1995.?A
  • 4CHEUNG P C, PAULAY T, PARK R. Interior and exterior reinforced concrete beam-column joints of a prototype two-way frame with floor slab for earthquake resistance[R].Rept. No. 89 - 2. Dept. of Civ. Engng. University of Canterbury,Christchurch, New Zealand, 1989:80 -91.
  • 5KITAYAMA K, OTANI S, AOYAMA H. Development of design criteria for RC interior beam-column joints, Design of beam-column joints for sesmic resistance, SP- 123 [ R ]. ACI,Detroit. 1991: 145 - 165.

共引文献2669

同被引文献383

引证文献44

二级引证文献203

建筑结构学报
2006年 第3期

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