围岩变形特性,deformation characteristics of surrounding rock
1)deformation characteristics of surrounding rock围岩变形特性
英文短句/例句
1.Research on the Rock Deformation Characteristics and Stability in Imports of Zhengyang Tunnel;正阳隧道进口段围岩变形特性与稳定性研究
2.Surrounding Rock s Deformation Property & Stability Study of Typical Highway Tunnel;典型公路隧道围岩变形特性与稳定性研究
3.Deformation Characteristics of Tunnel Walk Rock of Horsehead and Bracing Optimization Research on Qianyingzi Mine;钱营孜煤矿马头门围岩变形特性与支护优化研究
4.Study on the Surrounding Rock Deformation and Mechanical Character of Support Structure for Zhengyang Tunel正阳隧道围岩变形与支护结构受力特性研究
5.deformation of surrounding rock for underground excavation岩质地下洞室围岩变形
6.Analysis on the deformation and stability of blocks in surrounding rock mass of underground powerhouse of the Three Gorges Project三峡工程地下厂房围岩块体变形特征及稳定性分析
7.DEFORMATION AND MECHANICAL PROPERTIES OF THE LARGE UNDERGROUND CAVERN SURROUNDING ROCK WITH COMPLEX EXCAVATION复杂开挖条件下大断面洞室围岩的变形及力学特性研究
8.Analysis and FEM Stimulation of the Dilatancy and the Plastic Softening Deformation in Soft Rock Tunnel;软岩巷道围岩扩容—塑性软化变形及有限元分析
9.Characteristics experimental of surrounding rock mass in tectonic zone and its rheological law analysis构造带围岩特性实验及流变规律分析
10.Research on Deformation Characteristics and Control Technology of the Along Roadway;沿空巷道围岩变形特征及控制技术研究
11.Studying on Deformation Features of Surrounding Rock of Large Sectional Roadway in Coalmines and Supporting Parameters大断面煤层巷道围岩变形特征与支护参数研究
12.Research on Deformation Characteristics and Reinforcement Measures of the Weak Surrounding Rock in Banzhulin Tunnel斑竹林隧道软弱围岩变形特征与控制措施研究
13.Study on Unloading Deformation,Fracture and Energy Propertiesof Marble under High Confining Pressure高围压大理岩卸荷变形破坏与能量特征研究
14.The study on surrounding rock deformation features in the process of construction of buried superficially tunnel浅埋段隧道施工过程中围岩变形特征研究
15.IN-SITU TEST ON SURROUNDING ROCK DEFORMATION IN SUPER-LARGE SECTION AND LARGE-SPAN TUNNEL特大断面大跨度隧道围岩变形的现场试验研究
16.Numerical simulation of deformation and failure characteristics of surrounding rock of laneways with compound roof复合顶板巷道围岩变形与破坏特征数值模拟
17.The Deformation and Control Measures Research of Super Section and Crossing River Tunnel特大断面过江隧道围岩变形与控制对策研究
18.Unloading deformation failure and energy properties of marble under high confining pressure and high water pressure高围压高水压条件下大理岩卸围压变形破坏与能量特征
相关短句/例句
elasto-plastic deformation of surrounding rock围岩弹塑性变形
3)surrounding rock deformation围岩变形
1.Numerical simulation analysis onsurrounding rock deformation characteristic of tunnel with karst cave beside;侧部岩溶隧道围岩变形特征数值模拟分析
2.Forecasting nonlinear time series ofsurrounding rock deformations of underground cavern based on PSO-SVM;基于PSO-SVM非线性时序模型的隧洞围岩变形预报
3.Prediction of nerve network onsurrounding rock deformation in Yangzong highway tunnel;阳宗隧道围岩变形的神经网络技术预测
4)rock deformation围岩变形
1.Time seqnence analysis onrock deformation of large span road tunnel大跨度公路隧道围岩变形的时间序列分析
2.Aimed at controlling rocks in soft and thick coal seams, according to the occurrence of coal seam in 11151 working face in Liangbei coal mine, Shenhuo group, Henan province, the influence law between mining thickness, coal mass strength and the abutment pressure,rock deformation was simulated and analyzed with Flac 5.0数值计算软件模拟分析了煤层采高和煤体强度对工作面超前支撑压力和围岩变形的影响规律,现场实测了梁北矿11151极软厚煤层大采高工作面超前支撑压力的分布规律,实测与数值计算结果相吻合。
3.This paper analyzesrock deformation tested result in 1111(3) oblique simultaneous mining all high roadway, in zhangji coal mine,so, lead effect scope of rock pressure,peak value scope of lead abutment pressure androck deformation are known, it provides rational basis for strengthening supporting form and lead supporting distance.对张集煤矿1111(3)俯斜一次采全高巷道围岩变形测试结果进行分析,以此掌握该面矿压超前影响范围、超前支承压力的峰值范围及巷道围岩变形情况,为合理确定巷道加强支护形式和超前支护距离提供依据。
5)deformation of surrounding rock围岩变形
1.Application of monitoring measurement todeformation of surrounding rock for tunneling;围岩变形监控量测在隧洞施工中的应用
2.Relationship betweendeformation of surrounding rock and in-situ stress in deep-buried tunnel;铁矿深埋巷道围岩变形与地应力关系研究
3.Thedeformation of surrounding rock .研究表明,临近工作面巷道围岩处于支承压力降低区,支架荷载下降,但支架和围岩变形最剧烈,表明巷道围岩处于岩石峰后的力学状态。
6)country rock deformation围岩变形
1.9 coal seam in Tangshan mining area,and the observation of the mining pressure of all tunnels show the difference of tunnel stress in different places of the same coal seam and the difference ofcountry rock deformation in the places with different coal rock strength under the same tunnel stress.通过对唐山矿区9煤层T2291工作面溜子道实施锚杆支护时,进行全煤巷道的矿压观测,说明了同煤岩层内不同部位处巷道应力的差异和相同巷道应力条件下不同煤岩强度处围岩变形的差异;通过分析,得出9煤层锚杆支护巷道的围岩变形、锚杆受力等情况和矿压显现规律,提出锚杆支护巷道在进行设计及施工方面的指导性意见。
2.This paper discusses the principle, function, development and application of the system comprising a total station and a computer for monitoring and analyzing tunnelcountry rock deformation , presents the new methods of two free stations of 3D measurement, and single station and two free station independent coordinate measuring-lines as well as their concerning mathematic adjustment models.论述用自动全站仪结合计算机组成隧道围岩变形量测及分析系统的原理、功能及其开发应用,提出全站仪双站自由设站三维坐标非接触量测、单站独立坐标测线、双站独立坐标测线法等围岩变形量测的理论和方法,并建立相应的数学平差模型,使围岩变形非接触监测具有更好的可靠性和精度。
延伸阅读
岩质地下洞室围岩变形在开挖洞室之前,岩体处于应力平衡的初始应力状态(见岩石和岩体、岩体中应力)。洞室开挖后洞壁周边失去原有岩体的约束,围岩向内变形。围岩的变形与破坏,因岩性、岩体结构和初始应力状态不同而异。地下洞室开挖后,破坏了洞室四周岩体原有的应力平衡状态,使洞室四周一定范围内的岩体中应力重新分布,使围岩中某些部位产生应力集中。此时若应力超过岩体的强度极限时,则在该处发生局部破坏,同时引起附近围岩中应力分布进一步变化。若应力使局部破坏范围继续扩大,最终将导致围岩大范围的破坏和坍塌。初始应力场应力的大小、作用方向与围岩主要结构面和与洞室空间形状相对方位,都对围岩变形和破坏有重大影响。地下洞室围岩变形和破坏情况随岩体本身结构而异,在完整围岩中变形主要是岩石的变形;块裂结构的围岩变形主要是结构面的变形;碎裂结构的围岩变形是结构面与岩石变形共同作用的结果;但都表现有流变现象。在二次应力场的作用下,具有结构面的围岩的破坏,首先是从结构面最不利的组合部位开始滑移的。若岩体完整但其试块强度较低,其变形具有弹塑性介质变形的特点,洞室周边出现较大变形,且随时间而继续增大,表现明显的流变现象。若岩体中含有膨胀性矿物,洞室开挖后岩体膨胀,形成洞壁严重内挤现象,即使及时采用较强的支护措施,也不能完全阻止围岩的变形;若围岩非常破碎,已呈碎石状的松散结构,其变形与破坏具有散体介质的特点。存在于节理、裂隙或岩石中的地下水,一方面影响围岩的力学性质,另一方面也改变围岩应力状态。若围岩开挖后出现大量涌水,可能直接破坏围岩稳定。水对岩石中矿物的化学作用常对围岩稳定带来不利影响。因此分析围岩变形和破坏时,不应忽略地下水的作用。地下洞室本身的工程条件也影响洞室的变形和破坏。洞室整体空间几何形状,截面的几何形状,以及洞室附近是否还有其他洞室等都会影响岩体二次应力场的分布状态,进而影响围岩的变形与破坏。当地下洞室埋深较浅时,岩体的地面地形对地下洞室的变形和破坏也有很大的影响,应不同于埋置很深的地下洞室。围岩变形和破坏根据不同的岩体结构分为三类。岩体力学性质明显受结构面控制的围岩,如块裂结构的围岩属第一类;岩体力学性质受结构面及岩石共同影响的碎裂结构围岩属第二类;岩体力学特性没有受到结构面的明显控制的围岩如完整的岩体属于第三类,其变形和破坏近似于连续介质的性质。①第一类的块裂岩体可视作许多块体的拼合,用块体理论利用赤平投影的解析方法核算围岩的稳定性。②第二类围岩变形由围岩结构面的张开、闭合、岩块滑移和转动以及岩石弹塑性变形所组成。其破坏形式多为结构面上应力超过其强度后,使岩块沿结构面滑移的局部破坏(图1)。若有较大结构面时,如剪切破碎带,当其中应力超过该剪切破碎带的强度极限时,将产生较大的坍塌(图2)。③第三类围岩的变形有几种形式:完整结构的岩体,若质地坚硬,其变形具有弹性介质的特点,岩体强度及变形模量均较高,洞室周边变形很小,流变现象不明显,常不用任何支护,洞室可维持长期稳定。若洞室处于高地应力区的脆性围岩中,可能出现岩爆;若岩石强度较低,则会出现前述的弹塑性介质的变形性质和明显的流变现象,应适时地予以支护,以保证其稳定。地下围岩的变形与破坏过程非常复杂,目前,对其发生发展的机制尚未完全清楚,因此分析变形和破坏的计算方法还在发展中。对于具有结构面控制特点的围岩,通常是把受结构面切割的岩块抽象成互不联系的刚体的或半刚体的单元进行块体力学的分析;或把岩体中的结构面的力学特性作为附加条件,仍然借用连续介质力学方法求解。第二及第三类围岩可以用后一种方法进行力学分析。对于具有连续介质特点的围岩,通常利用连续介质力学的方法求解,但其本构关系和强度(屈服)准则,则采用岩体力学的研究成果。鉴于围岩的岩性、结构均不相同,计算不得不包含许多假定。为了反映实际情况,常在开挖好的岩洞中进行观测,印证原来假定的计算结果是否合适,必要时进行适当的调整。参考书目E.Hock and E.T.Brown,UnderɡroundExcavation in Rock,The Institution of Mining and Metallurgy,London,1980.
