深埋双线铁路隧道衬砌高水压分界值研究
发布时间:2018-11-27 20:34
【摘要】:为研究深埋双线铁路隧道衬砌高水压分界值以及高水压作用下的衬砌受力状态,基于双线铁路隧道设计标准,利用有限元软件计算和分析双线铁路隧道衬砌在不同水压作用下隧道衬砌安全系数的变化规律,确定双线铁路隧道衬砌的高水压分界值。研究结果表明:Ⅱ、Ⅲ级围岩条件下水压力在0~0.05 MPa(约等于隧道净高一半)和Ⅳ、Ⅴ级围岩条件下水压力在0~0.1 MPa(约等于隧道净高)范围内变化时,隧道断面安全系数基本不变。在Ⅱ、Ⅲ级围岩条件下,双线隧道的高水压第一分界值为0.08~0.20 MPa;高水压第二分界值可取为0.40MPa。在Ⅳ、Ⅴ级围岩条件下,双线隧道的高水压第一分界值为0.12~0.35 MPa;高水压第二分界值为0.50 MPa。双线铁路隧道采用标准设计图进行设计时,能够承受的最大静水头为50 m,超过50 m的静水头,则需要优化断面。
[Abstract]:In order to study the boundary value of high water pressure and the stress state of lining under the action of high water pressure, based on the design standard of double-track railway tunnel, The variation law of tunnel lining safety factor under different water pressure is calculated and analyzed by finite element software, and the high water pressure boundary value of double track railway tunnel lining is determined. The results show that when the launching pressure of class 鈪,
本文编号:2361961
[Abstract]:In order to study the boundary value of high water pressure and the stress state of lining under the action of high water pressure, based on the design standard of double-track railway tunnel, The variation law of tunnel lining safety factor under different water pressure is calculated and analyzed by finite element software, and the high water pressure boundary value of double track railway tunnel lining is determined. The results show that when the launching pressure of class 鈪,
本文编号:2361961
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