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1.
原地应力对钻孔应变耦合系数的影响分析   总被引:1,自引:0,他引:1  
利用4层介质耦合钻孔模型,研究该模型中耦合介质弹性参数变化对钻孔应变耦合系数的影响。计算结果表明:在钻孔耦合介质中,弹性层等效弹性模量变化对面应变耦合系数的影响大于对差应变的影响,与观测结果对比,分析发现面应变耦合系数观测值存在明显非均匀性,而且其大小与台站的背景应力场存在对应关系。  相似文献   

2.
用固体潮观测资料将钻孔应变变化换算为地层的应力变化   总被引:2,自引:0,他引:2  
利用钻孔应变观测值中潮汐频段部分和钻孔岩芯的弹性系数,将钻孔应变换算为地层应力的格值,用此格值可将钻孔应变的非潮汐变化换算成该地地层的非潮汐应力变化。从潮汐模型研究和潮汐观测结果来看,勒夫数受地球在结构的影响,空间变化不大,据此可用勒夫数的模型值去求定标应力。由钻孔应变观测值求定钻孔应变的面应力系数和差应力系数,而不必知道耦合介质的力学性能。探头周围介质若非各向同性时,应力系数可用椭圆的解析式拟合  相似文献   

3.
在钻孔应变观测的实际标定分析中,一般是通过对钻孔应变观测资料采用固体潮调和分析的方法直接获得钻孔面应变耦合系数,该方法未能充分反映观测的钻孔应变与地层应变之间的内在联系。本文基于“地层-等效弹性层-水泥环-钢筒”四层耦合介质钻孔模型,利用TJ-2C型体应变仪器的测量钢筒内外径和弹性参数、钻孔半径以及水泥环弹性参数,给出不同地层中钻孔耦合系数与钻孔等效弹性层弹性模量之间的变化关系。对我国现有运行的40多套TJ-2C型钻孔体应变观测资料的分析表明,潮汐因子分布范围在0.01至1.86之间,基岩为花岗岩类的潮汐因子均值为0.83,基岩为灰岩或砂岩类的潮汐因子均值为0.57,即硬地层中的潮汐因子高于软地层。基于对该四层模型探讨发现,等效弹性层的等效弹性模量大小反映了钻孔的耦合状态,对于同类型基岩地层,探头与地层耦合不佳将导致其等效弹性层弹性模量下降,进而导致钻孔潮汐因子下降。本文以砂岩弹性模量0.5 GPa作为判定钻孔耦合状态的下限,即认为等效弹性模量低于0.5 GPa时钻孔处于脱耦状态,统计结果表明我国现有钻孔体应变观测中有约30%的钻孔处于脱耦状态,这一研究结果对预报人员应用这些钻孔资料开展地震分析预报工作有重要指导意义。  相似文献   

4.
何斌  江昊琳  章东  王凯 《地震学报》2020,42(6):697-706
采用室内岩石力学试验方法—单轴压缩试验,对江苏省钻孔应变仪岩芯试样进行单轴压缩试验,通过应力-应变曲线特征和变形特性获取了钻孔岩芯的力学参数,定量化地了解和掌握钻孔岩芯性质;在观测资料的基础上计算面应变耦合系数,对比研究试样的单轴抗压强度和弹性模量与面应变耦合系数的关系。结果表明,弹性模量E对面应变耦合系数A有显著的影响,随着岩石弹性模量的增大,面应变耦合系数呈线性增长,二者具有很好的相关性。   相似文献   

5.
分量式钻孔应变观测耦合系数的计算   总被引:6,自引:1,他引:5       下载免费PDF全文
根据双衬套钻孔应变观测力学模型,推导出平面应力作用下各分量应变观测中两个耦合系数(A、B)的计算公式,为进一步确定地壳应变场最大、最小主应变的数值及方向提供了必需的前提条件,对当前国内外开展的利用钻孔应变进行地震、火山和板块边界的观测研究具有一定积极意义.研究结果表明,A、B与用双环模型和复变函数法解算出的c(面应变响应因子)、d(剪应变响应因子)之间分别存在2倍的关系(c=2A,d=2B),并且二者绘制的曲线完全一致,c、d的物理含义分别是地壳岩石面应变与剪应变观测的井孔耦合系数.  相似文献   

6.
钻孔应变观测系统(岩石、 膨胀水泥和应变仪钢筒)存在显著的井孔耦合效应,只有确定这一耦合系数,才能得到地壳岩石的真实应变值,从而实现不同测点数据的可比性.本文根据双衬套理论及弹性力学理论,建立了三维空间应力作用下体应变与面应变观测力学模型,并进一步推导各自井孔耦合系数计算式,发现两组系数与井孔的受力状况密切相关,分别与不同力源引起的应变信号相对应.亦即应力比(钻孔轴向应力与平面应力之比)不同,耦合系数也不一样,体应变随应力比的增大而下降,面应变则上升. 本文结果还表明平面应力作用下的耦合系数与外加应力无关,只与观测系统本身有关,故数值保持恒定. 此外,文中对其影响因素也进行了分析,结果表明,体应变和面应变的井孔耦合系数均随岩石弹性模量和泊松系数的增大而增大,且前者的幅度较大,井孔耦合材料水泥对二者影响均很小.   相似文献   

7.
钻孔耦合对体应变观测的影响分析   总被引:4,自引:0,他引:4  
利用三层厚壁筒组合模型,给出不同类型体应变的相互转换关系,分析模型参数变化对3类体应变仪观测的影响。通过对全国60多个台站的体应变观测资料分析,发现钻孔的气压系数与潮汐因子无简单对应关系。利用固体潮标定不同台站的体应变到统一系统的体应变,结果表明,多数台站存在体应变潮汐因子观测值比理论值明显偏小现象,推测可能与钻孔存在非完全耦合有关。  相似文献   

8.
正分量式钻孔应变观测是当今国际上地壳岩石应变相对测量的主流方法,由于应变需在岩石、水泥和仪器钢筒等3层介质中传递,故与无孔岩石不同,观测系统存在附加应变场,测得的面应变与剪应变并不等于钻孔围岩的真实应变,分别需要一个传递系数与之关联,所以分析外加应变向探头的传递过程很有必要。根据双衬套理论,推导出平面应力作用下岩石面  相似文献   

9.
钻孔应变观测是地壳岩石应变相对测量的主要方法,对其附加应力场的研究,可以有效分析岩石压应力向探头的传递过程,可对应变仪有关力学参数的设计和观测数据的物理解释提供帮助。考虑到外加应力在岩石、水泥和仪器钢筒等3层介质中传递的实际情况,根据弹性力学中的厚壁圆筒方程,推导轴对称应力作用下岩石压应力的传递系数公式,分析影响机制,并给出有关变化规律曲线和定量指标。  相似文献   

10.
根据钻孔加衬模型和应变理论,得出分量式钻孔应变仪观测值不等于实际的线应变,但相互垂直的应变元件观测值之和与面应变成正比例.利用四分量钻孔应变仪的“自检”功能,对观测数据进行校正.以漳州地震台分量式钻孔应变仪资料为例,计算校正系数.校正前后的残差分析结果表明,校正效果明显.  相似文献   

11.
Four-component borehole strainmeter (FCBS) is one kind of high-precision borehole strain observation instruments invented in China. As a kind of near-surface deformation observation instrument, FCBS is also easily disturbed by the external environment factors. As a common factor, pumping has significant influence on FCBS observation. Existing studies mostly identify the pumping interference from the perspective of observation curve morphology, relatively few studies focus on its interference mechanism. In order to truly capture earthquake precursor information, it is necessary to study the interference mechanism. In recent years, RZB-3 type FCBS at Tai'an seismic station has been seriously affected by pumping, so it is necessary and also feasible to study the interference mechanism of pumping. Since the influence of pumping interference on borehole strainmeter is common, this work would be very practical and be used for reference by other borehole strain observation stations. We find that the original observation curves and observed surface strain, shear strain from RZB-3 type FCBS at Tai'an seismic station have the characteristics of synchronous change with the borehole water level, in which the linear correlation coefficient between the two observed shear strain curves and borehole water level reached 0.70 and 0.82 respectively. We further find that the principal strain direction of borehole and borehole water level after normalization meet the nonlinear function as y=1.217arctan(x)0.224-0.284. The above phenomenon indicates that the observation of RZB-3 type FCBS at Tai'an seismic station is significantly affected by the borehole water level, and the influence is more obvious and the gradient is larger at the stage of low water level. Pumping interference often appears in low water level stage and changes the rock pore pressure state. Statistics show that pumping interference affects the borehole strain state. To investigate the interference mechanism of pumping to RZB-3 type FCBS at Tai'an seismic station, we take a known pumping as an example, in which we study the principal strain state of the borehole in three periods of normal pumping, interruption of pumping and resuming pumping respectively. During each period, we solve 3 parameters of the principal plane strain state, i.e. the maximum principal strain rate, the minimum principal strain rate and the maximum principal strain direction from four observation equations of FCBS by nonlinear iterative least squares algorithm. On the other hand, concentrated load model (CLM) is used to simulate the mechanical mechanism of pumping. Firstly, the depth of FCBS relative to pumping source and the concentrated load at pumping source are inversed, then, the strain state surrounding the pumping well, including the state at RZB-3 borehole, is simulated by forward modeling. By comparing these results, we find that: (1)The concentrated load at pumping source inversed by CLM during periods of normal pumping and resuming pumping are both located at or near the bottom of the pumping well, which is consistent with the actual situation, indicating that mechanism and degree of the influence of pumping on borehole strain are well simulated by CLM. (2)The observed strain state is consistent with the simulation result of pumping interference by forward modeling, indicating that the principal strain state of borehole calculated based on observation of FCBS reflects the true strain state of borehole under different pumping states.(3)The inversed concentrated load at pumping source during pumping periods is significant greater than the load of the pumped water, indicating that the pumping process has more significant influence on the pore pressure of rocks than the load of the pumped water. Even though CLM is an approximate simulation since it's based on some elastic assumptions, the interference mechanism of pumping on RZB-3 type FCBS at Tai'an seismic station is well explained, which is maybe very helpful for studying the influence of pumping interference on other deformation instruments, locating the unknown pumping source and studying the characteristics of pore pressure of rocks.  相似文献   

12.
本文应用孔隙弹性理论,探讨了引潮力作用下饱和地质岩体的力学响应.首先通过引潮力作用下饱和岩体的自由能表达式,得到岩体孔压与应力、应力与应变之间的关系;然后从引潮力作用下饱和岩体的平衡微分方程出发,结合流-固耦合理论,分析了饱水岩体应变与引潮位之间的关系;最后推导出饱和岩体的两大力学物理量--孔压和潮汐应力(平均应力)与引潮位之间的物理关系.模型表明:饱和岩体孔压与引潮位成反比,平均潮汐应力与引潮位成正比;比例系数不仅与岩体骨架的Lame系数有关,而且与Biot模量有关.将模型应用于会理川-18井水位变化分析,估计出水位响应系数D,并以此为基础,求得岩体孔压、潮汐应力与引潮位的相关系数(A和C)及Skempton系数B.最后对比分析了耦合条件下与不考虑耦合时得到的各参数之间的差异,分析表明:对饱和地质岩体而言,应力、孔压对引潮力的响应是流-固耦合作用的产物;研究其力学响应时必须充分考虑耦合效应.模型的建立,为研究引潮力作用下井-承压含水层系统力学、水动力学、与地震有关的断层力学以及引潮力触发机制的定量研究提供了基础.  相似文献   

13.
地壳应变场观测中体应变与面应变转换系数的计算   总被引:2,自引:0,他引:2       下载免费PDF全文
将钻孔体应变仪与分量式应变仪的观测资料在面应变平台上进行整合,对于解决目前两种应变仪观测数据的评估、分析、处理和地震预报问题有实际意义.根据潘立宙-陈沅俊和Evertson理论及弹性力学知识,分别建立了平面应力作用下体应变和面应变观测的力学模型,推导了观测钻孔、空孔和无孔岩石体应变与面应变转换系数的计算公式,发现它们都可以归结为同一公式描述,差异仅在于k(体应变仪钢筒内壁或无孔岩石面应变与空孔岩石面应变之比)的取值不同.用Evertson理论推导的公式与空孔岩石情形相近,当岩石弹性模量为4times;1010——8times;1010 Pa时,二者都可以看成是对潘-陈公式的一种简化、近似计算;无孔岩石的情况则相当于在岩石弹性模量为1times;1010 Pa时对该式的一种估计. 文中结合实际情况对转换系数的各种影响因素进行了详细分析.   相似文献   

14.
1999年 7月 11日乌鲁木齐台钻孔应变观测井的水位突然变化 ,通过计算该台应变与水位的相关系数和回归系数 ,研究了水位与应变的关系 ,认为利用此关系可以排除水位对观测值的影响  相似文献   

15.
In this paper,the mechanical response of saturated geological rock under tidal force is explored by poroelastic theory.First,we use the free energy formula of saturated rock under a tidal force to study the relationships of pore pressure with stress,and stress with strain.Then we analyze the relationship between rock strain and tidal potential by the equilibrium differential equations of saturated rock under tidal force.Finally,we derive the physical relationship between the two parameters (pore pressure and tidal mean stress) of saturated rock and tidal potential.The relationship shows that:pore pressure is directly proportional with tidal potential,but tidal mean stress of saturated rock is inversely proportional with tidal potential.The ratio coefficient is related not only to the Lame coefficients of rock skeletons,but also to the Biot modulus.By using this model to analyze observational well water level of C-18 well which locates in Huili,Sichuan Province,the well level response coefficient (D) was estimated.This way,we derive the Skempton coefficient (B),the coefficient A and C which refer to the response coefficients of pore pressure and tidal stress to tidal potential respectively.Then we compare the differences among each coefficient in coupling and uncoupling conditions.It shows that for saturated rocks,the response of stress and pore pressure to earth tides is a product of coupling,and it is necessary to take into account the coupling effect when we study the mechanical response.The model will provide the basis not only for the study of mechanics and hydrodynamics of well-confined aquifer systems,and the mechanics of faulting under tidal force,but also for quantitative research of the triggering mechanism of tidal forces.  相似文献   

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