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首页 > 过刊浏览>2016年第38卷第3期 >35-40. DOI:10.11835/j.issn.1674-4764.2016.03.005
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地震序列下拉索模数伸缩缝联间限位分析
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国家自然科学基金(51478339、51278376、91315301);土木工程防灾国家重点实验室基金(SLDRCE14-B-14);江西省科技计划(20151BBG70064)


CMEJs' effect in limiting relative displacement between girders with excitation of seismic sequence
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    摘要:

    主震作用下桥梁结构可能已发生联间相对变位,强余震作用将进一步加剧桥梁上部结构的碰撞或落梁灾害,以某连续梁桥为例进行地震序列分析,并对比有无拉索模数伸缩缝两种情况下的地震响应,结果表明:拉索模数伸缩缝能够有效限制主余震各阶段联间相对位移,对避免主震后产生联间残余位移的桥梁结构在强余震作用下发生碰撞、落梁具有重要意义;同时,拉索模数伸缩缝使桥梁各联间协同作用,从而墩梁相对位移得到相应的控制,桥墩受力亦有所改善。

    Abstract:

    Residual displacement between girders would have occurred after the main shock. And it would get further destroy (like pounding and unseating) with the excitation of aftershocks. Conclusions draw from the comparation on the response of continuous bridge with or without Cable-sliding expansion joints (CMEJs) under the excitation of seismic sequence. Relative displacement between girders gets effective restrained during the whole seismic process with the CMEJs which get great meaning for avoiding pounding and unseating. With the contribution of the CMEJs, all the girders work together causing the relative displacement between girder and the pile decreased. And the pier force also gets optimized.

    参考文献
    [1] ZHANG S, WANG G, SA W. Damage evaluation of concrete gravity dams under mainshock-aftershock seismic sequences[J]. Soil Dynamics and Earthquake Engineering, 2013, 50(1):16-27.
    [2] RAGHUNANDAN M, LIEL A B, LUCO N. Aftershock collapse vulnerability assessment of reinforced concrete frame structures[J]. Earthquake Engineering & Structural Dynamics, 2015, 44(3):419-439.
    [3] AMADIO C, FRAGIACOMO M, RAJGELJ S. The effects of repeated earthquake ground motions on the non-linear response of SDOF systems[J]. Earthquake Engineering and Structural Dynamics, 2003, 32(2):291-308.
    [4] LI Q, ELLINGWOOD B R. Performance evaluation and damage assessment of steel frame buildings under main shock-aftershock earthquake sequences[J]. Earthquake Engineering & Structural Dynamics, 2007, 36(3):405-427.
    [5] HATZIGEORIOU G D, BESKOS D E. Inelastic displacement ratios for SDOF structures subjected to repeated earthquakes[J]. Engineering Structures, 2009, 31(11):2744-2755.
    [6] 张煜敏. 考虑强震序列作用的连梁装置分析研究[D]. 西安:长安大学, 2008. ZHAGN Y M. The analysis of unseating prevention devices considering the excitation of strong earthquake sequence[D]. Xi'an:Chang'an University, 2008.
    [7] 叶爱君,管仲国. 桥梁抗震[M]. 北京:人民交通出版社. 2011. YE A J, GUAN Z G. Seismic design of bridges[J]. Beijing:People's Communications 2011.(in Chinese)
    [8] 黄小国, 李建中,张哲. 连续梁桥纵桥向防落梁装置结构模式对比研究[J]. 同济大学学报(自然科学版), 2009,37(9):1146-1152. HUANG X G, LI J Z, ZHANG Z. Comparative research on modes of longitudinal unseating prevention system for continuous bridge[J]. Journal of Tongji University(Natrural Science), 2009,37(9):1146-1152.(in Chinese)
    [9] 张煜敏, 赵国辉,刘健新. 地震序列下桥梁连梁装置的防落梁效果分析[J]. 灾害学, 2010,25(3):53-56. ZHAGN Y M, ZHAO G H LIU J X. Analysis on collapse-proof effectiveness of unseating-prevention device under earthquake sequences[J]. Journal of Catastrophology, 2010(3):53-56.(in Chinese)
    [10] 张煜敏, 刘健新,赵国辉. 地震序列作用下桥梁结构的响应及抗震措施[J]. 地震工程与工程振动, 2010,30(2):137-141. ZHAGN Y M, LIU J X ZHAO G H. Seismic responses and aseismatic measures of bridges under earthquake sequences[J]. Earthquake Engineering and Engineering Dynamics, 2010,30(2):137-141.(in Chinese)
    [11] 王军文, 李建中,范立础. 非规则梁桥伸缩缝处的碰撞对地震反应的影响[J]. 土木工程学报, 2006,39(1):54-59. WANG J W LI J Z FAN L C. Effect of pound ing at expansion jo in ts on seism ic response of irregular girder br idges[J]. China Civil Engineering Journal, 2006,39(1):54-59.(in Chinese)
    [12] BI K, HAO H. Numerical simulation of pounding damage to bridge structures under spatially varying ground motions[J]. Engineering Structures, 2013, 46(1):62-76.
    [13] SHRESTHA B, HAO H, BI K. Effectiveness of using rubber bumper and restrainer on mitigating pounding and unseating damage of bridge structures subjected to spatially varying ground motions[J]. Engineering Structures, 2014, 79(1):195-210.
    [14] 同济大学.抗震限位桥梁拉索模数伸缩缝装置:CN203834347U[P/OL].2014-09-17.http://epub.sipo.gov.cn/dxb.action0184868.7. Tongji university.Cable-sliding expansion joints' effect in limiting relative diaplacement:CN203834347U[P/OL].2014-09-17.http://epub.sipo.gov.cn/dxb.action0184868.7.(in Chinese)
    [15] 周仕勇,许忠淮. 地震序列研究综述[J]. 中国地震, 1999(3):72-81. ZHOU S Y, XU Z H. A review on earthquake sequence research[J]. Earthquake Research in China, 1999(3):72-81.(in Chinese)
    [16] 张煜敏, 刘健新,赵国辉. 地震序列下落梁震害的防灾设计分析[J]. 世界地震工程, 2011,27(2):159-163. ZHANG Y M,LIU J X,ZHAO G H. Analysison anti-disaster designfor girderfallingdamage under earthquake sequences[J]. World Earthquake Engineering, 2011,27(2):159-163.(in Chinese)
    [17] ZHAI C H, WEN W P, CHEN Z Q, et el. Damage spectra for the mainshock-aftershock sequence-type ground motions[J]. Soil Dynamics and Earthquake Engineering, 2013, 45(1):1-12.
    [18] GAO K, YUAN W, CAO S, et al. Seismic performance of cable-sliding modular expansion joints subject to near-fault ground motion[J]. Latin American Journal of Solids & Structures, 2015, 12(7):1397-1414.
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王建国,袁万城,高康,党新志.地震序列下拉索模数伸缩缝联间限位分析[J].土木与环境工程学报(中英文),2016,38(3):35-40. Wang Jianguo, Yuan Wancheng, Gao Kang, Dang Xinzhi. CMEJs' effect in limiting relative displacement between girders with excitation of seismic sequence[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2016,38(3):35-40.10.11835/j. issn.1674-4764.2016.03.005

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  • 收稿日期:2015-12-24
  • 在线发布日期: 2016-06-27
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