共查询到20条相似文献,搜索用时 625 毫秒
1.
Sergei Stanchits Jerome Fortin Yves Gueguen Georg Dresen 《Pure and Applied Geophysics》2009,166(5-7):843-868
We investigated initiation and propagation of compaction bands (CB) in six wet and four dry Bentheim sandstone samples deformed in axial compression tests with strain rates ranging from 3.2 × 10?8 s?1 to 3.2 × 10?4 s?1. Circumferential notches with 0.8-mm width and 5-mm depth served to initiate CB at mid-sample length. Wet samples were saturated with distilled water and deformed at 195 MPa confining pressure and 10 MPa pore pressure. Dry samples were deformed at 185 MPa confining pressure. Twelve P-wave sensors, eight S-wave sensors and two pairs of orthogonally oriented strain-gages were glued to the sample surface to monitor acoustic emission (AE), velocities and local strain during the loading process. Nucleation of compaction bands is indicated by AE clusters close to the notch tips. With progressive loading, AE activity increased and AE hypocenters indicated propagation of a single CB normal to the sample axis. CB propagation from the sample periphery towards the centre was monitored. Microstructural analysis of deformed samples shows excellent agreement between location of AE clusters and CBs. In both dry and wet samples the lateral propagation of CBs was about 100 times faster than axial shortening rates. At the slowest displacement rate, AE activity during band propagation was reduced and CB nucleation in wet samples occurred at 20% lower stresses. This may indicate an increasing contribution of stress corrosion processes to the formation of the compaction bands. In dry and wet samples inelastic compaction energy per area ranged between 16 and 80 kJ m?2. This is in good agreement with previous estimates from laboratory and field studies. 相似文献
2.
Fracture toughness measurements under static loading conditions have been carried out in Barre and Lac du Bonnet granites.
An advanced AE technique has been adopted to monitor real-time crack initiation and propagation around the principal crack
in these tests to understand the processes of brittle failure under tension and related characteristics of the resulting fracture
process zone. The anisotropy of Mode I fracture toughness has been investigated along specific directions. Microcrack density
and orientation analysis from thin section studies have shown these characteristics to be the primary cause of the observed
variation in fracture toughness, which is seen to vary between 1.14 MPa.(m)1/2 and 1.89 MPa.(m)1/2 in Barre granite. The latter value represents the case in which the crack is propagated at right angles to the main set of
microcracks. The creation of a significant fracture process zone surrounding the propagating main crack has been confirmed.
Real-time imaging of the fracture process and formation of fracture process zone by AE techniques yielded results in very
good agreement with those obtained by direct optical analysis. 相似文献
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Bin Wang Zhaoyong Xu Xiangchu Yin Yili Hu Runhai Yang Jingguan Cai Shunyun Chen 《Pure and Applied Geophysics》2006,163(11-12):2545-2560
In order to study the earthquake recurrence and the characteristics of earthquake series, rupture tests of rock samples and plexiglass samples were made. On rock samples, a number of acoustic emission (AE) and strain measuring points were deployed; the load was one side direct shear. The variation characteristics of AE and strain at different detecting points around the extra large fracture were observed and studied. On plexiglass samples, a series of inclined cracks were prefabricated by a small-scale compressive testing machine. The samples were then loaded on a shockproof platen, when the samples were loaded, the stress intensity factor (SIF) was determined by the laser interferometric technique and shadow optical method of caustics. The fracture conditions such as material toughness around the extra large fracture were also studied. From those experimental results and the theory of fracture mechanics, the earthquake recurrence period and the trend of post-seismic development were studied. 相似文献
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利用不同温、压条件下的花岗岩变形实验数据,研究声发射(AE)事件应变释放特征,探讨加速模型参数m值与温压环境的关系.常温条件下,声发射应变显示一定的加速释放特征,但m值随围压增加未显示出趋势性的变化,表明常温条件下m值与岩石强度关系不密切.围压固定时,m值随温度升高逐渐变大,声发射应变从加速释放逐渐过渡到匀速释放,这意味着不同温度条件下岩石变形过程中内部微破裂形式的差异,可能导致应变释放类型的较大差异(即m值的较大差异).在浅表地层的温压条件下,岩石破坏前显示一定的加速释放特征,m小于1;在渐进式破坏区段,应变释放呈逐渐减弱的减速释放态势,m明显大于1;在深部温压条件下,应变释放加速特征明显,m值明显较低.此外,完整岩样破裂前声发射应变加速释放特征显著,而宏观剪裂面的黏滑之前,声发射应变基本上匀速释放. 相似文献
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随着二氧化碳地质封存、深部地热开采、地下储气库建设、页岩气开发、二次驱油/驱气等工业应用的快速发展,与地下流体注入有关的诱发地震活动呈现一定的增加趋势.利用声发射实验观测油气田典型岩石在三轴压缩条件下变形破坏过程与声发射活动特征,对研究注水诱发地震过程有着重要意义.本文利用四川盆地现场采集的震旦系白云岩及页岩,采用实验室声发射技术观测研究岩石三轴压缩变形破坏过程中地震波速度等物性参数及声发射事件时空分布特征.实验结果表明:震旦系白云岩及页岩在变形破坏过程中均有一定的声发射活动.根据声发射定位结果,声发射主要集中在破坏前后的较短时间内,页岩的层理面为结构弱面,控制最终破坏面的形态及声发射特征.根据应力-应变结果,白云岩在压缩的后期阶段有一定的扩容现象,但页岩在整个压缩阶段均没有明显扩容现象.研究结果表明四川盆地较古老的白云岩及页岩具有脆性破坏特征,地下流体注入容易诱发微震活动,形成裂缝,有利于页岩气压裂开采.微震活动有利于监测裂缝的发生发展,但同时在页岩气开发及二氧化碳地质封存时应采取相应的预防控制措施进行安全合理的储盖层管理,避免灾害性诱发地震的发生. 相似文献
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岩石破裂扩展过程中的声发射b值动态特征及意义 总被引:10,自引:0,他引:10
利用多道声发射(AE)采集系统记录了不同构造的岩石试件变形破坏过程中的AE全波形,由扫描算法求得试件变形全过程的AEb值动态曲线;根据变化幅度和演化方式,将AEb值曲线分为山脊线状和台阶状两类;经与应力-应变时程曲线及试件破裂特征对比,发现山脊线状和台阶状AEb值曲线分别对应于较均匀岩石试件的渐进式稳态破裂扩展和含扁平状非均匀构造岩石试件的突发式失稳破裂扩展,后者的破裂状态及其转变可用破裂相和相变来描述 相似文献
10.
Experimental study of the formation and propagation of three-dimensional (3D) faults is of great sig- nificance in the understanding of the propagation process developing from initial natural faults. In the study described in this paper, experimental investigations of 3D propagation processes of a type of surface fault are carried out under biaxial compression. The strain field near the surface fault is dy- namically measured and fully analyzed with a high-density Multi-Channel Digital Strain Gauge (MCDSG) and Digital Speckle Correlation Method (DSCM) based on the white-light image analysis. Simultane- ously the micro-fracture process involved in fault formation is observed by a 3D acoustic emission (AE) location system with a set of multi-channel whole-wave record equipment. The experimental results show that the 3D propagation process of surface fault differs greatly from that of the two-dimensional (2D) state and that a new more complicated type of 3D morphological characters and deformation mechanisms are produced. The 3D propagation process of surface faults may be divided into three stages: 1) the first stage of crack propagation initiated by wing cracks; 2) the conversion stage propa- gated by petal cracks; and 3) the second stage of crack propagation formed by shell-shaped fracture surface. The primary propagation patterns of the three stages are different. The corresponding defor- mation fields and micro-fracture distributions are likewise different. The fracture activities from petal cracks especially are of vital importance during surface fault propagation. This is also a key conversion state and marks an intrinsic difference between 2D-like and the 3D state in fault development. 相似文献
11.
岩石受载内部微裂纹扩展及其震源机制反演有助于认识宏观裂纹扩展过程的非线性断裂力学行为.借助声发射监测手段,本文建立了仅涉及微裂纹张开/闭合和剪切滑移的位移不连续震源模型,通过各位置处传感器耦合质量标定及点源远场P波矩张量反演获得了含预制裂纹砂岩受载过程的震源机制解及时变响应特征,在全局坐标系下分析了微裂纹的三种断裂力学行为.结果表明:在位移不连续模型中,震源矩张量特征值与试样泊松比之间必须满足特定约束条件,该约束条件下的优化问题可采用拉格朗日乘子和Levenberg-Marquardt迭代法求解;受载砂岩裂纹扩展过程中,声发射震源以剪切滑移机制占优,微裂纹空间取向及运动方向与试样宏观主裂纹夹角平均值分别为40.9°和17.7°;对微裂纹体积分解表明岩体微观破裂机制以沿X方向I型张开为主,而沿Y方向的II型断裂滑移方向与试样全局变形方向相一致,由于试样内部晶粒分布非均质性造成了少量沿Z方向的III型平面外微裂纹滑移行为;受载砂岩裂纹扩展过程中微裂纹模式角与震源极性值变化趋势一致、利用震源震级评估的局部应力降值与实验观测结果相吻合,这两者均表明了位移不连续模型在震源机制定量反演中的适用性. 相似文献
12.
S. Mohanty 《Pure and Applied Geophysics》2011,168(5):781-795
The Satpura Mountains of central India represents an ancient orogenic belt of the Mesoproterozoic time. It has a distinct
sygmoidal (S-shaped) geometry with long EW and short NE–SW alignments. The mountain belt has been affected by tectonic activities
throughout the geological past. The association of high seismicity, high heat flow and high Bouguer gravity anomaly with high
topography of the region is a very distinct feature of the mountain range. Present analysis demonstrates that the average
velocity for central India has a value of ~54 mm/year towards N050°. The velocity field vector can be partitioned into an
eastward component parallel to the Satpura Mountain Belt and a northward component across the belt. The partitioned components
provide evidence for sinistral strike–slip deformation of anomalously high shear strain rate of ~3 × 10−9/year in the region. Similar high shear strain rates are also found from the strain determined by GPS data. An extremely high
rate of extensional strain (~600 × 10−9/year), which is comparable to that of the continental rift systems, is recorded from geodetic data of the Satpura Mountain
Belt and the adjacent regions. Regional sinistral shape of the Satpura Mountains involved in a sinistral-slip transtension
regime is interpreted to be the cause of high extensional and shear strain regime of the area. The occurrence of normal faulting
detected in several deep seismic sounding profiles, the Moho upwarp, crustal thinning, high heat flow and high seismicity
of the Satpura region are explained by this tectonic model. 相似文献
13.
基于一组实验结果,讨论了岩石标本的非均匀性(预存微裂纹和宏观裂纹)对声发射 时空分布的影响. 对比分析表明,预存微裂纹的存在使得破裂成核前声发射率快速增加、 b值表现出一种短期异常现象,即在下降背景上出现起伏,从而增加了破裂时间的可预报 性. 宏观结构(节理、层面等)的存在对声发射率和b值的影响与微裂纹相同,而且宏 观结构对声发射的空间分布具有控制作用,声发射丛集的宏观构造通常控制着未来的主破裂 . 这意味着宏观构造的存在使得主破裂的时间和位置预报成为可能. 相似文献
14.
Introduction By the experimental techniques of acoustic emission (AE) and surface strain observation, a lot of achievements on the study of deformation and fracture process of samples with en-echelon faults has been obtained (Bomblakis, 1973; LIU, et al, 1986; DU, et al, 1989; LI, et al, 1989; ZHANG, FANG, 1989; ZHANG, LI, 1989; MA, et al, 1995a, b; LI, et al, 2000). However, there still exist many problems. For example, most of discussion on the spatio-temporal evolution of microf… 相似文献
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The experimental studies done at high temperature and high pressure find that increased temperature can lead to dramatic velocity and strength reductions of most of rocks at high confining pressure[1,2]. What causes this phenomenon? Is it due to dehydrati… 相似文献
17.
Tensile dynamic fractures were propagated under two experimental congifurations for the purpose of assessing the relative amount of strain energy release that is consumed as fracture energy and radiated as seismic waves. The configurations used were (1) application of localized thermal stresses to 2.29 mm-thick plates of soda-lime glass and (2) double cantilever beam (DCB) experiments in 12.7 mm-thick glass plates, in which a fracture is propagated from a notch at one end of the specimen by application of a transverse load. Fracture propagation velocities of 0.35–2 mm/s were obtained for fractures in the first configuration. A capacitance transducer with a point-like probe was used for measuring the seismic displacement waveforms from propagating fracture sources. This transducer is capable of measuring absolute surface displacements with a resolution of 0.01 nm. It has a flat frequency response in the range 10 kHz to 6 MHz. Measured seismic efficiencies, or the ratio of radiated seismic energy to strain energy released, are in the range 10–5 to 10–3. 相似文献
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We present the geophysical evidences on the role of fluids for generation of the lower crustal Jabalpur earthquake (21 May 1997, mb 6.0, Mw 5.8), in the mid-continental fracture zone of the Indian Peninsular Shield. With a focal depth of 35 km, it indicates a high angled (< 62∘ enclosed with maximum principal stress direction) reverse fault with small component of left-lateral strike slip in the lower crust. The Son-Narmada-Tapti (SONATA) magalineament, during the past two centuries, has experienced about 25 moderate to strong earthquakes; two of which namely the Son Valley (1927, M 6.5) and Jabalpur (21 May 1997) were disastrous. Historical earthquakes and recent earthquake swarms indicate a moderate to high seismicity in SONATA belt that is due to high strain accumulation, flexuring of the crust and neotectonic movements of the faults in the rift zones. By analyzing geophysical parameters such as Zero-Free air-based (ZFb) gravity anomalies (∼ −10 to –30 mGals), heat flow values (45–47 mWm−2), magneto-telluric values (1- Ohm m), strain rate (1.5 × 10−8) and failure stress conditions, we identify plausible causative factors for the occurrence of lower crustal earthquake in this region Fluids, due to dehydration of serpentinite in the lower crust, are suggested to be present in the earthquake source zone. The estimated pore-fluid factor for the Jabalpur earthquake (λ
v
) is 0.95. The diffusion of pore-pressure relaxation, represented as pressure perturbation generated by coseismic stress change was seen in the form of swarm activity two years prior to the Jabalpur earthquake. We suggest the existence of a deep pre-fractured zone with low shear stress (τ = 15–18 MPa) that indicates the presence of fluid filled fractured mafic material in the felsic crust, in critical state of unstable failure condition, and also fluid driven migration of swarm activity before the Jabalpur earthquake. 相似文献
19.
Many observations point to the lithosphere being metastable and close to a critical mechanical point. Exercises in modelling
deformation, past or present, across subsurface reservoirs need to take account of this criticality in an efficient way. Using
a renormalization technique, the spatial scaling of effective elastic modulus is derived for 2-D and 3-D bodies close to the
critical point of through-going fracturing. The resulting exponent, dμ, of spatial scaling of effective modulus with size, , takes the values ~ −2.5 and −4.2 in two- and three-dimensional space, respectively. The exponents are compatible with those
for scaling of effective modulus with fracture density near the percolation threshold determined by other workers from numerical
experiments; the high absolute values are also approximately consistent with empirical data from a) fluctuations in depth
of a seismic surface; b) `1/k' scaling of heterogeneities observed in one-dimensional well-log samples; c) spatial correlation of slip displacements induced
by water injection. The effective modulus scaling modifies the spatial correlation of components of displacement or strain
for a domain close to the critical point of fracturing. This correlation function has been used to geostatistically interpolate
components of the strain tensor across subsurface reservoirs with the prime purpose of predicting fracture densities between
drilled wells. Simulations of strain distributions appear realistic and can be conditioned to surface depths and observations
at wells of fracture-related information such as densities and orientations, welltest permeabilities, changes in well-test
permeabilities, etc. 相似文献
20.
Mitiyasu Ohnaka 《Pure and Applied Geophysics》2004,161(9-10):1915-1929
It is shown that the rupture nucleation length increases up to the critical length with time according to a power law, and that the accelerating phase of nucleation leading up to the critical point is scaled in the framework of fracture mechanics based on slip-dependent constitutive formulation. Geometric irregularity of the rupturing surfaces plays a fundamental role in scaling the accelerating phase of nucleation up to the critical point. A power-law scaling relation between the rupture growth length and the nucleation time to the critical point is derived from theoretical consideration based on laboratory data. This power-law scaling relation has no singularity, and hence it may be useful for the predictive purpose of an imminent, large earthquake. 相似文献