振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2015年
7期
115-120
,共6页
赵斌%杨彪%李明文%马忠政
趙斌%楊彪%李明文%馬忠政
조빈%양표%리명문%마충정
车站结构%离壁墙式车站%环境振动%有限元分析
車站結構%離壁牆式車站%環境振動%有限元分析
차참결구%리벽장식차참%배경진동%유한원분석
metro station structure%station with separated walls%environmental vibration%finite element analysis
地铁诱发环境振动是城市轨道交通工程设计中重点关注的课题。系统研究了地铁车站考虑地铁运行诱发环境振动的数值建模问题,给出了计算模型建立的思路及相关计算参数的取值方法。以某拟建地铁车站为例,建立了车站结构—土的准三维有限元模型,分析车站结构型式对地铁诱发环境振动的影响,从振动加速度时程反应、1/3倍频程谱和峰值衰减规律等方面对叠合墙式、复合墙式和离壁墙式三种不同型式车站方案进行了详细的对比分析。研究结果表明:分离车站结构内衬墙和地下连续墙可减小地铁诱发的环境振动。对于环境振动水平需要严格控制的地区,地铁车站可选用离壁墙式结构方案。
地鐵誘髮環境振動是城市軌道交通工程設計中重點關註的課題。繫統研究瞭地鐵車站攷慮地鐵運行誘髮環境振動的數值建模問題,給齣瞭計算模型建立的思路及相關計算參數的取值方法。以某擬建地鐵車站為例,建立瞭車站結構—土的準三維有限元模型,分析車站結構型式對地鐵誘髮環境振動的影響,從振動加速度時程反應、1/3倍頻程譜和峰值衰減規律等方麵對疊閤牆式、複閤牆式和離壁牆式三種不同型式車站方案進行瞭詳細的對比分析。研究結果錶明:分離車站結構內襯牆和地下連續牆可減小地鐵誘髮的環境振動。對于環境振動水平需要嚴格控製的地區,地鐵車站可選用離壁牆式結構方案。
지철유발배경진동시성시궤도교통공정설계중중점관주적과제。계통연구료지철차참고필지철운행유발배경진동적수치건모문제,급출료계산모형건립적사로급상관계산삼수적취치방법。이모의건지철차참위례,건립료차참결구—토적준삼유유한원모형,분석차참결구형식대지철유발배경진동적영향,종진동가속도시정반응、1/3배빈정보화봉치쇠감규률등방면대첩합장식、복합장식화리벽장식삼충불동형식차참방안진행료상세적대비분석。연구결과표명:분리차참결구내츤장화지하련속장가감소지철유발적배경진동。대우배경진동수평수요엄격공제적지구,지철차참가선용리벽장식결구방안。
Considerable attention has been drawn to the environmental vibration induced by railway traffic in rail transit design. The numerical modeling strategies of metro station used for predicting the railway traffic induced environmental vibration were studied,and the practical analytic model as well as the methods of the related parameter identification were presented.Based on a proposed metro station project,a quasi-three-dimensional station dynamic structure-soil interface FEM model for the station was established to investigate the influence of station structure on the environmental vibration induced by railway traffic.Three different station structures with composite walls,compound walls and separated walls respectively were analyzed and compared in time history responses,1/3 octave spectra and attenuation tendencies of peak acceleration.The results show that separation of lined wall and retaining wall can reduce the environmental vibration and station with separated-wall is the optimal solution for the area having high limitation of the environmental vibration.