[1]梁 岩,闫士昌,赵博洋,等.近断层高速铁路刚构桥地震易损性分析[J].郑州大学学报(工学版),2022,43(04):80-85.[doi:10.13705/j.issn.1671-6833.2022.04.022]
 LIANG Yan,YAN Shichang,ZHAO Boyang,et al.Seismic Fragility Analysis of Rigid Frame Bridge Near-fault High-speed Railway[J].Journal of Zhengzhou University (Engineering Science),2022,43(04):80-85.[doi:10.13705/j.issn.1671-6833.2022.04.022]
点击复制

近断层高速铁路刚构桥地震易损性分析()
分享到:

《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
43
期数:
2022年04期
页码:
80-85
栏目:
出版日期:
2022-07-03

文章信息/Info

Title:
Seismic Fragility Analysis of Rigid Frame Bridge Near-fault High-speed Railway
作者:
梁 岩 闫士昌 赵博洋 王 艳 张朝阳
郑州大学土木工程学院;

Author(s):
LIANG YanYAN ShichangZHAO BoyangWANG YanZHANG Chaoyang
School of Civil Engineering,Zhengzhou University,Zhengzhou 450001,China
关键词:
Keywords:
high-speed railway bridgesnear-faultfragilityboundary estimation method
分类号:
U238
DOI:
10.13705/j.issn.1671-6833.2022.04.022
文献标志码:
A
摘要:
为研究近断层地震作用下高速铁路桥梁地震响应,以国内某高速铁路刚构桥梁作为研究对象, 采用 OpenSees 建立有限元模型,通过可靠度理论建立地震易损性曲线,对比分析近断层和远场地震作用下桥梁易损性,研究了近断层地震动速度脉冲效应对桥梁结构地震响应的影响。 结果表明,相同地震强度作用下,有速度脉冲的近断层桥梁构件及系统在各损伤状态下的易损性明显高于远场地震动,桥梁 系统在近断层及远场地震作用下的系统易损性均高于单个构件,采用单个构件的地震易损性评估系统 易损性会高估桥梁的抗震性能;相对于一阶界限法,二阶界限法考虑了桥梁构件之间的相关性,易损性 曲线上下界宽度较小,桥梁地震易损性评估更为精确;罕遇地震作用时,近断层地震作用下轻微损伤、中 等损伤、严重损伤及完全破坏 4 种损伤状态的系统易损性相较于远场地震作用下分别高 3、13、23、3 百分点,近断层桥梁结构抗震性能评估应考虑速度脉冲效应对桥梁结构地震响应的影响。
Abstract:
To study seismic response of high-speed railway bridge under near-fault earthquake,this study took a high-speed railway rigid frame bridge as the sample of study,the whole bridge model was established by OpenSees and seismic fragility curves were established by reliability theory,bridge fragility under near-fault and far-field earthquakes were compared and analyzed.The influence of near-fault ground motion velocity pulse effect on seismic response of bridge structure was studied.The results showed that under the action of a near-fault earthquake with velocity impulse,the fragility of bridge members and systems in each damage state was significantly higher than that of far-field seismic motion.The fragility of bridge systems in near-fault and far-field seismic action was higher than that of a single component.The seismic fragility evaluation system using a single component could overestimate the seismic performance of the bridge.Compared with the first-order boundary method,the second-order boundary method took into account the correlation between bridge members.The upper and lower bounds of the fragility curves were smaller and the seismic fragility of the bridge was more accurate.In rare earthquakes,the system′s fragility under near-fault earthquakes increased by percent point of 3,13,23,3,respectively,compared with that under far-field earthquake.The influence of velocity pulse effect on seismic response of bridge structure should be considered in the evaluation of the seismic performance of bridge structure near fault area.

参考文献/References:

[1] CHANG C H, WU Y M, SHIN T C, et al. Relocation of the 1999 Chi-Chi earthquake in Taiwan[ J] . Terrestrial, atmospheric and oceanic sciences, 2000, 11 (3) : 581.

[2] SHIN T C. An overview of the 1999 Chi-chi, Taiwan, earthquake[ J] . Bulletin of the seismological society of America, 2004, 91(5) : 895-913.
[3] 吴文朋, 李立峰, 胡思聪, 等. 公路桥梁地震易损 性分析的研究综述与展望[ J] . 地震工程与工程振 动, 2017, 37(4) : 85-96. 
WU W P, LI L F, HU S C, et al. Research review and future prospect of the seismic fragility analysis for the highway bridges [ J] . Earthquake engineering and engineering dynamics, 2017, 37(4) : 85-96. 
[4] 管嘉达, 陈兴冲, 张熙胤. 特殊复杂场地条件下桥 梁结构地震易损性研究现状及发展趋势分析[ J] . 世界地震工程, 2022, 38(1) : 127-138. 
GUAN J D, CHEN X C, ZHANG X Y. Summary and prospect of research on seismic vulnerability of bridge structures under special complex site conditions [ J] . World earthquake engineering, 2022, 38 ( 1 ) : 127 -138.
[5] 陈伟, 王冠, 杜彦良, 等. 高速铁路连续梁桥近断 层地震易 损 性 分 析 [ J ] . 哈 尔 滨 工 程 大 学 学 报, 2020, 41(2) : 212-218. 
CHEN W, WANG G, DU Y L, et al. Vulnerability analysis of the continuous high-speed railway bridge under near-fault earthquake [ J ] . Journal of Harbin engineering university, 2020, 41(2) : 212-218.
[6] 赵金钢, 胡靖, 张永水, 等. 近场地震作用下钢筋 混凝土高墩地震易损性分析[ J] . 重庆交通大学学 报(自然科学版) , 2019, 38(10) : 25-32. 
ZHAO J G, HU J, ZHANG Y S, et al. Seismic fragility analysis of reinforced concrete high-pier under nearfield seismic waves[ J] . Journal of Chongqing Jiaotong university ( natural science) , 2019, 38(10) : 25-32.
[7] LIANG Y, YAN J L, CHENG Z Q, et al. Time-varying seismic fragility analysis of offshore bridges with continuous rigid-frame girder under main aftershock sequences[ J] . Journal of bridge engineering, 2020, 25(8) : 04020055.
[8] SASANI M, BERTERO V V. Importance of severe pulse-type ground motions in performance-based engineering: historical and critical review [ C ] / / 12th World Conference on Earthquake Engineering. Tokyo: IAEE, 2000:1-7. [9] MANDER J B, PRIESTLEY M J N, PARK R. Observed stress-strain behavior of confined concrete[ J] . Journal of structural engineering, 1988, 114 ( 8 ) : 1827-1849.
[10] 张智, 李小军, 兰日清, 等. 斜交连续刚构桥桥墩 地震易 损 性 分 析 [ J ] . 地 震 工 程 学 报, 2020, 42 (6) : 1391-1401. 
ZHANG Z, LI X J, LAN R Q, et al. Seismic fragility analysis of the piers of a skewed continuous rigid-frame bridge [ J ] . China earthquake engineering journal, 2020, 42(6) : 1391-1401.
[11] SHOME N, CORNELL C A, BAZZURRO P, et al. Earthquakes, records, and nonlinear responses [ J ] . Earthquake spectra, 1998, 14(3) : 469-500. 
[12] 韩兴, 崔圣爱, 崔恩旗, 等. 基于失效概率法的桥 梁地震风险评估 [ J] . 西 南 交 通 大 学 学 报, 2018, 53(4) : 696-703. 
HAN X, CUI S A, CUI E Q, et al. Earthquake risk assessment of bridge based on failure probability method [ J ] . Journal of southwest Jiaotong university, 2018, 53(4) : 696-703.
[13] 董俊. 铁路高墩大跨刚构—连续组合体系桥梁近 场地震易 损 性 分 析 研 究 [ D] . 成 都: 西 南 交 通 大 学, 2016. 
DONG J. Fragility analysis of railway long span rigid frame-continuous combination system bridge with high pier subjected to near-fault ground motion [ D ] . Chengdu: Southwest Jiaotong University, 2016.
[14] DITLEVSEN O, MADSEN H O. Structural reliability methods [ M ] . Chichester: John Wiley & Sons Ltd, 1996. 
[15] 吴文朋. 考虑不确定性的钢筋混凝土桥梁地震易 损性研究[D] . 长沙: 湖南大学, 2016. 
WU W P. Seismic fragility of reinforced concrete bridges with consideration of various sources of uncertainty[D] . Changsha: Hunan University, 2016.
[16] DITLEVSEN O. Narrow reliability bounds for structural systems[ J] . Journal of structural mechanics, 1979, 7(4) : 453-472.

更新日期/Last Update: 2022-07-03