铁道科学与工程学报
鐵道科學與工程學報
철도과학여공정학보
Journal of Railway Science and Engineering
2015年
5期
982-989
,共8页
张志超%曾志平%元强%曾大鹏%刘付山
張誌超%曾誌平%元彊%曾大鵬%劉付山
장지초%증지평%원강%증대붕%류부산
CRTS II 型板式无砟轨道%桥梁%温度力%位移%有限元
CRTS II 型闆式無砟軌道%橋樑%溫度力%位移%有限元
CRTS II 형판식무사궤도%교량%온도력%위이%유한원
CRTS II slab track%bridge%temperature load%displacement%finite element method
利用有限元软件 ANSYS 建立温度荷载作用下桥上 CRTS II 型板式无砟轨道结构体系各部件纵向相互作用分析模型。模型中钢轨、轨道板、底座板、梁体、桥墩均采用梁单元模拟,各结构层之间的连接采用弹簧单元模拟。以一座高速铁路混凝土连续梁桥为例,分析桥梁温度荷载作用下,轨道及桥梁结构的力学特性,并针对相关因素对各结构层受力与变形的影响进行了研究。研究结果表明:当梁体温升幅度达到一定值以后,轨道结构纵向力不再明显增大;“分离板模型”能更好反映 CA 砂浆黏结状态对轨道和桥梁受力特性的影响;滑动层摩擦大数增大,将大幅度增加轨道与桥梁结构的受力;轨道板宽接缝开裂导致钢轨、底座板纵向受力以及轨道板位移的增大。
利用有限元軟件 ANSYS 建立溫度荷載作用下橋上 CRTS II 型闆式無砟軌道結構體繫各部件縱嚮相互作用分析模型。模型中鋼軌、軌道闆、底座闆、樑體、橋墩均採用樑單元模擬,各結構層之間的連接採用彈簧單元模擬。以一座高速鐵路混凝土連續樑橋為例,分析橋樑溫度荷載作用下,軌道及橋樑結構的力學特性,併針對相關因素對各結構層受力與變形的影響進行瞭研究。研究結果錶明:噹樑體溫升幅度達到一定值以後,軌道結構縱嚮力不再明顯增大;“分離闆模型”能更好反映 CA 砂漿黏結狀態對軌道和橋樑受力特性的影響;滑動層摩抆大數增大,將大幅度增加軌道與橋樑結構的受力;軌道闆寬接縫開裂導緻鋼軌、底座闆縱嚮受力以及軌道闆位移的增大。
이용유한원연건 ANSYS 건립온도하재작용하교상 CRTS II 형판식무사궤도결구체계각부건종향상호작용분석모형。모형중강궤、궤도판、저좌판、량체、교돈균채용량단원모의,각결구층지간적련접채용탄황단원모의。이일좌고속철로혼응토련속량교위례,분석교량온도하재작용하,궤도급교량결구적역학특성,병침대상관인소대각결구층수력여변형적영향진행료연구。연구결과표명:당량체온승폭도체도일정치이후,궤도결구종향력불재명현증대;“분리판모형”능경호반영 CA 사장점결상태대궤도화교량수력특성적영향;활동층마찰대수증대,장대폭도증가궤도여교량결구적수력;궤도판관접봉개렬도치강궤、저좌판종향수력이급궤도판위이적증대。
A model to study the longitudinal mechanical characteristics of CRTS II slab track on bridge under the temperature load was established by ANSYS in this paper.The rail,slab,foundation plate,box bridge and bridge pier were simulated by beam element,while the connection between layers were simulated by spring ele-ment in the model.Taking a continuous beam bridge on high speed railway as an example,the longitudinal me-chanical characteristics of track structure and bridge structure,as well as the influences of several factors on the force and displacement of each component were analyzed by virtue of the model.The results show that:(1)The longitudinal forces of track structure will no longer increase obviously when the temperature on bridge reaches a certain value.(2)“Separate Slab Model”can simulate the influence of longitudinal mechanical characteristics of track structure and bridge structure by cement emulsified asphalt mortar.(3)The force of track structure and bridge structure will increase greatly,as the friction coefficient of sliding layer increases.(4)The cracking at wide juncture will increase the force of rail and foundation plate and the displacement of slab.
