现代隧道技术
現代隧道技術
현대수도기술
Modern Tunnelling Technology
2015年
4期
111-120
,共10页
董飞%张顶立%房倩%祝文君%陈立平%台启民
董飛%張頂立%房倩%祝文君%陳立平%檯啟民
동비%장정립%방천%축문군%진립평%태계민
盾构隧道%管片接头%转动刚度%刚度修正%地震响应
盾構隧道%管片接頭%轉動剛度%剛度脩正%地震響應
순구수도%관편접두%전동강도%강도수정%지진향응
Shield tunnel%Segment joint%Rotation stiffness%Stiffness modification%Seismic response
管片接缝对盾构隧道的变形及地震响应产生极大影响。文章以南京纬三路大直径过江盾构隧道为研究对象,使用FLAC3D软件建立了真实的管片连接模型,并考虑了三种分块方案,计算了各方案中设计正、负弯矩及轴力所对应的接头转角。通过建立简化的连续非均质圆环模型,依据接头转角等效修正管片接头薄弱区材料刚度,分析了不同分块形式下隧道结构在EI centro波作用下的地震响应。结果表明:分块形式对地震开始后1.2 s内结构的动力特性有影响;封顶块角度越小,拱顶及拱底水平向加速度时程曲线幅值越小;地震结束后三种方案拱顶以及拱底两侧各60°范围内产生较大的拉应力;接头区分布影响断面最大主应力分布,封顶块大小影响最大主应力大小。
管片接縫對盾構隧道的變形及地震響應產生極大影響。文章以南京緯三路大直徑過江盾構隧道為研究對象,使用FLAC3D軟件建立瞭真實的管片連接模型,併攷慮瞭三種分塊方案,計算瞭各方案中設計正、負彎矩及軸力所對應的接頭轉角。通過建立簡化的連續非均質圓環模型,依據接頭轉角等效脩正管片接頭薄弱區材料剛度,分析瞭不同分塊形式下隧道結構在EI centro波作用下的地震響應。結果錶明:分塊形式對地震開始後1.2 s內結構的動力特性有影響;封頂塊角度越小,拱頂及拱底水平嚮加速度時程麯線幅值越小;地震結束後三種方案拱頂以及拱底兩側各60°範圍內產生較大的拉應力;接頭區分佈影響斷麵最大主應力分佈,封頂塊大小影響最大主應力大小。
관편접봉대순구수도적변형급지진향응산생겁대영향。문장이남경위삼로대직경과강순구수도위연구대상,사용FLAC3D연건건립료진실적관편련접모형,병고필료삼충분괴방안,계산료각방안중설계정、부만구급축력소대응적접두전각。통과건립간화적련속비균질원배모형,의거접두전각등효수정관편접두박약구재료강도,분석료불동분괴형식하수도결구재EI centro파작용하적지진향응。결과표명:분괴형식대지진개시후1.2 s내결구적동력특성유영향;봉정괴각도월소,공정급공저수평향가속도시정곡선폭치월소;지진결속후삼충방안공정이급공저량측각60°범위내산생교대적랍응력;접두구분포영향단면최대주응력분포,봉정괴대소영향최대주응력대소。
Considering that segment joints have a great influence on the deformation and seismic response of shield tunnels, a real segment connection model with FLAC 3D software was established and the rotation angles of the joints as a function of the designed positive and negative moments were calculated along with axial forces considering three segment layout patterns using the Nanjing Weisan Road large-diameter river-crossing shield tunnel as an example. Based on a simplified continuous and heterogeneous ring model, the material stiffnesses at the weak parts of the segment joints were equivalently modified according to the rotation angles, and the seismic responses of the tunnel structures affected by the EI Centro wave were analyzed with respect to different segment layout patterns. The results show that: 1) the segment layout pattern may affect the tunnel dynamic characteristics within 1.2 s after an earthquake; 2) the time-history curve magnitudes of the horizontal acceleration at the crown and bottom decrease with a decrease of the angle of the key segment; 3) regarding the three segment layout pat-terns, the greatest tensile stress may occur in a range of 60° on each side of the crown and bottom after a seism;and 4) the distribution and magnitude of the maximum principle stress are affected by the joint area distribution pattern and the key segment dimension, respectively.