OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

中国公路学报 2010

钢筋混凝土桥墩塑性铰区约束箍筋用量研究

, PP. 48-57

孙治国,王东升,杜修力,司炳君,郭迅

Keywords: 桥梁工程,钢筋混凝土桥墩,回归分析,约束箍筋,延性,极限位移角

Full-Text Cite this paper Add to My Lib

Abstract:

？为了研究钢筋混凝土桥墩的延性配箍要求,总结了中、美、欧主要桥梁抗震设计规范对延性桥墩塑性铰区最低约束箍筋用量的规定,结合美国PEER柱抗震性能试验数据库、日本Kawashima实验室和部分中国的试验数据,整理了234根桥墩的拟静力试验数据;建立了桥墩极限位移角与位移延性系数、曲率延性系数的对应关系,讨论了中、美、欧主要桥梁抗震设计规范约束箍筋用量及构造措施对保证桥墩延性的可靠性;在此基础上分别以2％和3％极限位移角为延性目标,通过回归分析建立了具有85％保证率的桥墩塑性铰区约束箍筋用量计算公式;通过一个设计实例将建议公式与各国规范进行了对比。结果表明:该公式适用于剪跨比在3~10范围内的普通及高强混凝土桥墩,既可保证高轴压下桥墩延性抗震能力,又可保证低轴压下配箍要求不过于保守。

References

[1]	LIU Qing-hua,FAN Li-chu.Theoretical Research on the Ductility of Reinforced Concrete Bridge Piers[J]. Journal of Tongji University:Natural Science,1998,26(3):245-249.
[2]	XIONG Zhao-hui,PAN De-en.Study on Lateral Deformability of Reinforced Concrete Frame Columns[J]. Earthquake Engineering and Engineering Vibration,2001,21(2):103-108.
[3]	ZHUO Wei-dong,FAN Li-chu.Minimum Quantity of Confining Lateral Reinforcement in the Potential Plastic Hinge Regions of Ductile Bridge Piers[J]. China Civil Engineering Journal,2002,35(5):47-51.
[4]	LU Xi-lin,ZHOU Ding-song,JIANG Huan-jun.Deformation Capacity and Performance-based Seismic Design Method for RC Frame Columns[J]. Earthquake Engineering and Engineering Vibration,2005,25(6):53-61.
[5]	NZS 3101:Part 1-1995,Code of Practice for the Design of Concrete Structures[S].
[6]	SAATCIOGLU M,RAZVI S R.Displacement-based Design of Reinforced Concrete Columns for Confinement [J]. ACI Structural Journal,2002,99(1):3-11.
[7]	PAULTRE P,LEGERON F.Confinement Reinforcement Design for Reinforced Concrete Columns[J].Journal of Structural Engineering,2008,134(5):738-749.
[8]	张国军,吕西林,刘建新.高强约束混凝土框架柱基于位移的抗震设计[J].同济大学学报:自然科学版,2007,35(2):143-148.
[9]	LI B,PARK R.Confining Reinforcement for High-strength Concrete Columns [J].ACI Structural Journal,2004,101(3):314-324.
[10]	AASHTO 1996,Standard Specifications for Highway Bridges[S].
[11]	Caltrans-2003,Bridge Design Specifications[S].
[12]	Eurocode 8-1998,Design Provisions for Earthquake Resistance of Structures－Part 2:Bridges[S].
[13]	JTG/T B02-01—2008,Guidelines for Seismic Design of Highway Bridges[S].
[14]	SI Bing-jun,LI Hong-nan,WANG Dong-sheng,et al.Experimental Evaluation of the Seismic Performance of Reinforced Concrete Bridge Piers Designed on the Basis of Displacement (I):Quasi-static Test[J].Journal of Earthquake Engineering and Engineering Vibration,2008,28(1):123-129.
[15]	宋一凡,王玉萍.计入弹性基础效应的钢筋混凝土桥梁结构塑性倒塌分析[J].交通运输工程学报,2003,3(3):26-31.
[16]	周勇军,贺拴海,宋一凡,等.在役桥梁结构延性系数的动力评价方法[J].长安大学学报:自然科学版,2005,25(4):35-38.
[17]	PRIESTLEY M J N,PARK R.Strength and Ductility of Concrete Bridge Columns Under Seismic Loading[J].Structural Journal,1987,84(1):61-76.
[18]	CALVI G M,KINGSLEY G R.Displacement-based Seismic Design of Multi-degree-of-freedom Bridge Structures[J].Earthquake Engineering & Structural Dynamics,1995,24(9):1247-1266.
[19]	刘庆华,范立础.钢筋混凝土桥墩的延性分析[J].同济大学学报:自然科学版,1998,26(3):245-249.
[20]	熊朝晖,潘德恩.钢筋混凝土框架柱侧向变形能力的研究[J].地震工程与工程振动,2001,21(2):103-108.
[21]	卓卫东,范立础.延性桥墩塑性铰区最低约束箍筋用量[J].土木工程学报,2002,35(5):47-51.
[22]	吕西林,周定松,蒋欢军.钢筋混凝土框架柱的变形能力及基于性能的抗震设计方法[J].地震工程与工程振动,2005,25(6):53-61.
[23]	WATSON S,ZAHN F A,PARK R.Confining Re-inforcement for Concrete Columns[J]. Journal of Structural Engineering,1994,120(6):1798-1824.
[24]	SHEIKH S A,KHOURY S S.A Performance-based Approach for the Design of Confining Steel in Tied Columns [J]. ACI Structural Journal,1997,94(4):421-431.
[25]	BRACHMANN I,BROWNING J,MATAMOROS A.Drift-dependent Confinement Requirements for Reinforced Concrete Columns Under Cyclic Loading[J]. ACI Structural Journal,2004,101(5):669-677.
[26]	CSA A23.3-04,Design of Concrete Structures[S].
[27]	ZHANG Guo-jun,LU Xi-lin,LIU Jian-xin.Displacement-based Seismic Design of High-strength Concrete Frame Columns with Confinement[J].Journal of Tongji University:Natural Science,2007,35(2):143-148.
[28]	AASHTO LRFD 2005,Bridge Design Specifications[S].
[29]	ACI 318-08,Building Code Requirements for Structural Concrete and Commentary[S].
[30]	Caltrans-2006,Seismic Design Criteria, Version 1.4[S].
[31]	JTG/T B02-01—2008,公路桥梁抗震设计细则[S].
[32]	司炳君,李宏男,王东升,等.基于位移设计的钢筋混凝土桥墩抗震性能试验研究(I):拟静力试验[J].地震工程与工程振动,2008,28(1):123-129.
[33]	SONG Yi-fan,WANG Yu-ping.Plastic Collapse Mechanism of Seismic Assessment for Existing RC Bridges with Flexible Foundation and Bearing Pads[J].Journal of Traffic and Transportation Engineering,2003,3(3):26-31.
[34]	ZHOU Yong-jun,HE Shuan-hai,SONG Yi-fan,et al.Dynamic Assessment Method of Ductility Coefficient for Existing Beam Bridges[J].Journal of Chang'an University:Natural Science Edition,2005,25(4):35-38.
[35]	KOWALSKY M J,PRIESTLEY M J N,MACRAE G A.Displacement-based Design of RC Bridge Columns in Seismic Regions[J].Earthquake Engineering & Structural Dynamics,1995,24(12):1623-1643.
[36]	LEGERON F,PAULTRE P.Behavior of High-strength Concrete Columns Under Cyclic Flexure and Constant Axial Load[J].Structural Journal,2000,97(4):591-601.<

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133