岩土力学
巖土力學
암토역학
Rock and Soil Mechanics
2015年
11期
3283-3292
,共10页
地铁%行车速度%行车荷载%差异沉降%运营沉降%盾构隧道
地鐵%行車速度%行車荷載%差異沉降%運營沉降%盾構隧道
지철%행차속도%행차하재%차이침강%운영침강%순구수도
subway%train speed%traffic load%differential settlement%operation settlement%shield tunnel
地铁行车荷载经轨道-道床-隧道结构传至地基,在土体内部产生循环动应力以及超孔隙水压力是引起盾构隧道沉降的重要原因。通过车-轨-隧道-地基竖向耦合动力模型分析隧道差异沉降对列车运行荷载的影响,以上海地铁一号线体育馆站附近区间隧道为工程背景建立三维数值模型,结合塑性累积应变及累积孔压经验公式进行计算,对比分析软土盾构隧道下卧土层有、无纵向差异沉降两种情况下,地铁行车速度对隧道运营沉降的影响。结果表明:列车运行速度越快,下卧土体波动越大,但衰减越快。地基差异沉降对其长期运营存在明显不利影响,随着列车速度增大,这种影响也愈加明显。当地基差异沉降小,轨道平顺条件好时,隧道长期沉降随地铁行车速度的增大而减小;当地基差异沉降突出,轨道存在明显不平顺时,隧道运营沉降随行车速度增大而显著增加。
地鐵行車荷載經軌道-道床-隧道結構傳至地基,在土體內部產生循環動應力以及超孔隙水壓力是引起盾構隧道沉降的重要原因。通過車-軌-隧道-地基豎嚮耦閤動力模型分析隧道差異沉降對列車運行荷載的影響,以上海地鐵一號線體育館站附近區間隧道為工程揹景建立三維數值模型,結閤塑性纍積應變及纍積孔壓經驗公式進行計算,對比分析軟土盾構隧道下臥土層有、無縱嚮差異沉降兩種情況下,地鐵行車速度對隧道運營沉降的影響。結果錶明:列車運行速度越快,下臥土體波動越大,但衰減越快。地基差異沉降對其長期運營存在明顯不利影響,隨著列車速度增大,這種影響也愈加明顯。噹地基差異沉降小,軌道平順條件好時,隧道長期沉降隨地鐵行車速度的增大而減小;噹地基差異沉降突齣,軌道存在明顯不平順時,隧道運營沉降隨行車速度增大而顯著增加。
지철행차하재경궤도-도상-수도결구전지지기,재토체내부산생순배동응력이급초공극수압력시인기순구수도침강적중요원인。통과차-궤-수도-지기수향우합동력모형분석수도차이침강대열차운행하재적영향,이상해지철일호선체육관참부근구간수도위공정배경건립삼유수치모형,결합소성루적응변급루적공압경험공식진행계산,대비분석연토순구수도하와토층유、무종향차이침강량충정황하,지철행차속도대수도운영침강적영향。결과표명:열차운행속도월쾌,하와토체파동월대,단쇠감월쾌。지기차이침강대기장기운영존재명현불리영향,수착열차속도증대,저충영향야유가명현。당지기차이침강소,궤도평순조건호시,수도장기침강수지철행차속도적증대이감소;당지기차이침강돌출,궤도존재명현불평순시,수도운영침강수행차속도증대이현저증가。
The traffic load transfers from track, roadbed, and tunnel structure to foundation, generating cyclic dynamic stress and excess pore water pressure in soil, inducing settlement of shield tunnel. A vertical coupling dynamical model of metro train, track, tunnel and foundation is developed and used to analyze the effect of differential settlement of tunnel foundation on subway traffic load. A three-dimensional numerical model is established based on the engineering background of the subway tunnel near the Stadium Station of Shanghai Metro Line 1. Combined with the calculation formulas of accumulated plastic strain and cumulative pore pressure, the influence of train speed on the long-term settlement of subway foundation without tunnel uneven deformation is analyzed and compared to the case with tunnel differential deformation. It is shown that the larger the amplitude of soil vibration is, the faster the amplitude attenuation becomes while the train speed gradually increases. The longitudinal differential settlement has significant adverse effect on the operation of subway tunnel. As the train speed increases, this effect becomes more significant. When the tunnel differential settlement is small and the track condition is good, tunnel operation settlement decreases as the metro driving speed increases. However, the long-term settlement of tunnel significantly increases as vehicle speed increases, while the foundation differential settlement becomes pronounced and the track irregularities are significant.