对深埋隧道的研究已取得了很多结果。
围岩渗透性预测是深埋隧道涌水量评估的重要基础。
Prediction of surrounding rock permeability in tunnel is the base of estimating the water gushing yield for deep lying tunnel.
深埋隧道软弱围岩与初期支护的相互作用是地下工程研究的重要课题之一。
The interaction between soft-weak Surrounding Rock and initial support of deep buried tunnels has become one of the most important subjects in underground engineering research.
利用相似材料模拟方法,借助数字散斑观测技术,对深埋隧道围岩岩爆倾向进行试验研究。
Using equivalent material simulating experimental method, with the help of digital speckle correlation technique, the rock burst tendency of deep tunnel surrounding rock is studied.
研究目的:明确岩溶山区深埋隧道施工突水灾害形成的地质条件,给隧道施工地质超前预报工作提供技术基础。
Research purposes: in order to ascertain geology condition of karst water bursting disaster in the course of tunnel caving and give a technique foundation for the work of tunnel geology prediction.
目前浅埋盾构隧道技术己相当成熟,深埋隧洞盾构技术的专项研究很少。
At present, shallow shield tunneling technology has been very mature, but very few specific study was conducted on deep tunnel shield tunneling technology.
在高地应力环境下的软弱国岩中修建深埋长隧道,软弱围岩流变一是个突出的工程地质问题。
Once deep-buried long tunnel is constructed in soft rock under high crustal stress, rheology of soft rock is an outstanding engineering geology problem.
依据隧址区工程地质特征,建立通—渝深埋公路隧道1:1实体模型。
Based on engineering geological features of tunnel setting, a1:1 hypostatic model of Tong-Yu deep buried highway tunnel is built.
岩爆是深埋长隧道的主要工程地质问题之一。
Rock Burst is one of the main engineering geology problems of deep-lying long tunnels.
深埋长大隧道高地温引起的热害将给隧道施工带来不利的影响。
High geothermal in the tunnel with thick overburden is unfavorable for tunnel construction.
海底隧道深埋于海水以下,因而在勘探、设计、施工和运行方面都比陆地隧道更困难。
Therefore, they are more difficult in geological investigation, design, construction and operation than land tunnels.
深埋长大隧道的工程地质宏观预测仍然是当今世界各国工程界亟待解决的重大科研课题。
Deep and long Tunnel engineering Geology macro forecast is still urgent to solve as a major topic research in the engineering world today.
长大深埋高水压山岭隧道的施工将越来越多地采用隧道掘进机法。
Mountain tunnel construction with high water pressure will apply the tunnel boring machine method (TBM) more and more.
一系列的城市地下工程、深埋管道工程、大跨度公(铁)路隧道的修建,大大促进了隧道施工技术的进步。
Construction of various urban underground engineering, deep-buried tube work, large span highway (railway) tunnel are greatly improving tunnel construction technology.
文中对上述因素对岩爆的影响进行了分析,并指出精细的地面地质调查是合理评价深埋长隧道岩爆的基础。
On the basis of the analysis of the above factors on rock burst, this paper point out that careful geology investigation is a key point for the rational assessment o...
文中对上述因素对岩爆的影响进行了分析,并指出精细的地面地质调查是合理评价深埋长隧道岩爆的基础。
On the basis of the analysis of the above factors on rock burst, this paper point out that careful geology investigation is a key point for the rational assessment o...
应用推荐