中低速磁浮梁轨一体轨道梁钢混接头试验研究  

作　　者：秦世强[1] 黄春雷 龚俊虎[2,3] 毛羚 王秋萍[1] QIN Shiqiang;HUANG Chunlei;GONG Junhu;MAO Ling;WANG Qiuping(School of Civil Engineering and Architecture,Wuhan University of Technology,Wuhan 430070,China;State Key Laboratory of Rail Transit Vehicle System,Southwest Jiaotong University,Chengdu 610031,China;China Railway Maglev Transportation Investment and Construction Co.,Ltd.,Wuhan 430060,China)

机构地区：[1]武汉理工大学土木工程与建筑学院,湖北武汉430070 [2]西南交通大学轨道交通运载系统全国重点实验室,四川成都610031 [3]中铁磁浮交通投资建设有限公司,湖北武汉430060

出　　处：《西南交通大学学报》2024年第4期867-876,共10页Journal of Southwest Jiaotong University

基　　金：中国铁建股份有限公司科技重大专项经费资助计划(2018-A01)。

摘　　要：针对中低速磁浮分离式轨道梁建筑高度较大、无法考虑F轨刚度贡献等问题,提出了一种开孔钢板式梁轨一体轨道梁结构,并针对其钢-混结合部的静力性能开展足尺模型试验和有限元仿真计算分析.首先,介绍了梁轨一体轨道梁工程背景以及钢-混结合部的结构特征;其次,设计了钢-混结合部静载模型试验,测试F轨、钢连接件和混凝土等构件在各级荷载下的应力和位移;最后,建立了钢-混结合部实体有限元模型,并结合试验数据分析了钢-混结合部的受力性能、传力机理以及设计参数影响.研究结果表明:1)在1.50倍设计荷载内,钢-混结合部基本处于弹性状态,连接件承载力满足设计要求;荷载继续增大时,F轨的荷载-应力曲线表现出一定的非线性;5.47倍设计荷载下,混凝土梁体发生开裂破坏.2)F轨内外磁极位移均较小,钢-混结合部刚度较大;F轨内外磁极位移差在设计荷载下满足设计限值;1.58倍设计荷载下内外磁极位移差达到0.54 mm,开始超过位移差限值;表明钢混结合部刚度的富裕量小于强度,钢连接件应以刚度控制设计.3)在正常运营状态,磁浮列车荷载主要由钢连件的钢板承压传递,焊钉与开孔钢板传力比例较小;钢连接件中开孔直径、贯穿钢筋直径对传力影响较小,钢连接件腹板厚度增加使得钢混结合部处传力更加平顺.To solve problems such as the large construction height of separated track beams for medium and low speed maglev and the inability to consider the stiffness contribution of F rail,an integrated track beam structure with a perforated steel plate was proposed.In addition,a full-scale model test and finite element simulation calculation were carried out to investigate the static performance of the steel-concrete joint.Firstly,the engineering background of the integrated track beam and the structural characteristics of the steel-concrete joint were introduced.Secondly,the static load model test of the steel-concrete joint was designed to test the stress and displacement of F rail,steel connector,and concrete components under various load scenarios.Finally,a solid finite element model of the steel-concrete joint was established,and the mechanical properties,force transmission mechanism,and design parameters of the steel-concrete joint were analyzed based on the test data.The results show that:1)within 1.50 times the design load,the steel-concrete joint is basically in an elastic state,and the bearing capacity of the connector meets the design requirements.With the increase in load,the load–stress curve of F rail shows certain nonlinearity.Under 5.47 times the design load,the concrete beam cracks.2)The displacements of the internal and external magnetic poles of F rail are small,and the stiffness of the steel-concrete joint is large.The displacement difference of the internal and external magnetic poles of F rail meets the design limit under the design load.Under 1.58 times the design load,the displacement difference reaches 0.54 mm,which begins to exceed the limit value.It shows that the stiffness abundance of the steel-concrete joint is less than the strength abundance,indicating that the design of the steel connector should be controlled by stiffness.3)Under normal operational conditions,the maglev train load is mainly transmitted by the steel bearing plate of the steel connector,and the force transmission ratio b

关 键 词：中低速磁浮 模型试验 分离式轨道梁 梁轨一体轨道梁 钢-混结合部 

分 类 号：U237[交通运输工程—道路与铁道工程] U44[建筑科学—桥梁与隧道工程]