共查询到20条相似文献,搜索用时 15 毫秒
1.
考虑到天然岩石存在不同程度初始损伤以及蠕变过程中岩石受载后裂隙扩展而导致的新损伤,对具有初始损伤的岩石蠕变特性进行全面描述。根据不闭合结构面应力与法向变形之间的关系,提出裂隙岩石塑性变形体元件,描述岩石蠕变过程中的瞬时塑性变形。引入初始损伤影响因子,建立具有初始损伤的岩石损伤变量演化方程,构建模拟岩石加速蠕变的蠕变损伤体元件。将裂隙岩石塑性变形体和蠕变损伤体与描述瞬时弹性变形和黏弹性变形的广义开尔文模型进行串联组合,形成能够反映具有初始损伤的岩石瞬时弹-塑性变形、稳定蠕变和加速蠕变的蠕变全过程本构模型,提出了进行少量蠕变试验既能解析模型参数的方法,在不同应力水平下模型理论曲线与蠕变试验曲线吻合。 相似文献
2.
基于深层地热能开采时储能区井筒围岩所处的工程环境,采用高温加热、不同温度水浸泡、加热-循环次数及径向冲击加载的方法模拟井筒围岩经历的高温、遇水、循环采热及热冲击等造成的动力扰动等物理力学条件。同时,以不同内孔直径的同心圆孔岩样模拟深层地热井,采用分离式霍普金森压杆试验系统开展热-水-力作用下圆孔花岗岩的动态力学试验,并结合VIC-3D非接触应变测量及数值模拟分析技术监测冲击过程中圆孔岩样裂隙萌发、形成的历程和表面应变演化的规律,揭示热-水-力作用下圆孔岩样的动态损伤破坏机制。研究结果表明:径向冲击荷载作用下圆孔花岗岩先后经历弹性变形、塑性变形、结构失稳破坏3个典型阶段;内孔直径、加热温度、浸水温度、加热-浸水循环次数4因素都弱化了圆孔花岗岩抗外界荷载的能力,但未改变其整体的变形演化规律;圆孔花岗岩的破坏模式是动态拉伸破坏,先沿冲击方向由内孔壁向岩样外壁,再垂直冲击方向由岩样外壁向内孔壁萌发、贯通裂纹,形成近垂直的两组破裂面。最后,基于圆孔花岗岩的损伤变形特征及历程,在一定假设基础上,建立动态损伤结构模型,推演了结构方程,并结合试验结果确定了方程参数,通过对比分析发现,理论拟合曲线与试验... 相似文献
3.
A lot of experiments on electromagnetic emissions (EMEs) have been reported under axial compressive fracture, shear fracture, indentation fracture and stick–slip (friction) in lab and blasting in situ, but there are rare reports on the in-lab experimental work on EMEs during dilating fracture of a rock which is helpful in studying and understanding EMEs related to slow earthquakes and the earthquakes due to volcanic activities and water level changes of reservoirs. Therefore, in the present paper in order to check whether there are detectable EMEs during dilating fracture of a rock in lab, dilating fracture experiments were conducted. The dry cuboid specimens of initially intact granodiorite and limestone were tested inside magnetic field free space (MFFS) at room temperature. We arranged evenly 20 EME antennas whose resonance frequencies range from 2.5 kHz to 540 kHz close to rock specimens. Our experimental results strongly indicate that detectable EMEs could generate during dilating fracture of a rock. They were recorded only associated with some but not all phases of fracture. Their waveforms often took on the trend that a peak arrived at first and then attenuated sharply and followed by a series of low-amplitude oscillations. The electromagnetic (EM) signals after eliminating the effects of EME antennae via deconvolution had the maximum peak-to-peak amplitudes of about 80.0 mV and 40.5 mV for granodiorite and limestone, respectively. Their main spectral components often concentrated in the band of several kHz to ∼60 kHz and of several kHz to ∼280 kHz. The emission of electrons and charged particles from fracture surfaces and/or micro-fracture electrification could be possible mechanisms for our experimental results. 相似文献
4.
高温作用后花岗岩三轴压缩试验研究 总被引:2,自引:0,他引:2
为综合考察温度、围压对花岗岩力学性质及破坏方式的影响,在高温(25℃~1 000 ℃)作用后,利用MTS815.02电液伺服材料试验系统对花岗岩岩样进行不同围压作用下的三轴压缩试验。研究结果表明,(1)围压一定时,经历不同高温作用后花岗岩三轴压缩全应力-应变曲线经历了压密、弹性、屈服、破坏、塑性流动5个阶段;(2)经历不同高温作用后岩样三轴抗压强度与围压呈非线性二次多项式增长关系,围压为40 MPa时的抗压强度比单轴抗压强度提高了382.30%;常规三轴压缩条件下,400 ℃是花岗岩力学参数的阀值温度;(3)经历高温作用后,岩样弹性模量随围压升高呈增大趋势,围压为40 MPa时的弹性模量比单轴时提高了90.26%;随温度升高呈二次非线性减小,1 000 ℃时的弹性模量比25℃时降低了57.16%;(4)花岗岩的失稳型式同时取决于围压和温度。单轴压缩状态下,随着温度的升高,岩样变形破坏型式由脆性破裂向塑性变形过渡,失稳型式在低温时为突发失稳、中高温为准突发失稳,温度高于800 ℃为渐进破坏;三轴压缩状态下,随着围压的增大,岩样破裂型式由脆性张拉破裂逐渐向剪切破裂过渡,岩样的失稳型式以突发失稳为主。在试验温压范围内,影响花岗岩力学性质的首要因素是温度,其次是围压。 相似文献
5.
Brittle-plastic deformation in initially dry rocks at fluid-present conditions: transient behaviour of feldspar at mid-crustal levels 总被引:1,自引:0,他引:1
Linus Brander Henrik Svahnberg Sandra Piazolo 《Contributions to Mineralogy and Petrology》2012,163(3):403-425
We present detailed microstructural and chemical analyses from an initially dry anorthositic rock deformed during wet amphibolite
facies conditions. Three different domains representing the microstructural variation of the deformed samples are investigated
in detail in terms of fracture morphology and mode, grain characteristics and chemistry of present phases. Results show transient
deformational behaviour where a close interaction between brittle, plastic and fluid-assisted deformation mechanisms can be
observed. Our analysis allows us to describe the succession, interrelationships and effects of active mechanisms with progressively
increasing strain in three so-called stages. In Stage 1, initial fracturing along cleavage planes promoted fluid influx that caused fragmentation and chemical reactions, producing
fine-grained mineral assemblages in the fractures. Deformation twins and dislocations developed in clast pieces due to stress
relaxation. Passive rotation of conjugate fracture sets and interconnection of intracrystalline fractures formed micro-shear-zones,
constituting Stage 2. Microstructures and grain relationships indicate the activity and fluctuation between fracturing, dissolution-precipitation
creep, grain boundary sliding and locally dislocation creep, reflecting the transient behaviour of brittle and plastic deformation
mechanisms. Further rotation and widening of fractures into overall foliation parallel shear-bands (Stage 3) promoted strain partitioning into these areas through increased fluid influx, influence of fluid-assisted grain boundary
sliding, phase mixing and presence of weak phases such as white mica. We suggest that local differences in fluid availability,
volume fraction of weak phases produced by fluid present metamorphic reactions coupled with volume increase and local variations
in stress concentration induced transient brittle-plastic behaviour. The studied shear-zone represents an example of the transformation
of a rigid dry rock to a soft wet rock during deformation through syntectonic fracturing. 相似文献
6.
为探究泥质巷道受水平应力及动力扰动影响下的围岩裂隙演化规律,以盘州市山脚树矿226轨道石门为工程背景,综合运用现场调研、数值模拟、分形理论分析等研究方法,对动力扰动下泥质巷道的变形破坏特征、围岩裂隙演化规律、围岩裂隙分形演化特征等问题展开研究。结果表明:动力扰动前,巷道裂隙区和塑性区扩展范围随侧压系数的增加而逐步增大,巷道发生较大变形;受扰动后,随侧压系数的增加,围岩裂隙密度逐步增大,浅部裂隙扩展贯通并逐步延展至深部,巷道裂隙区和塑性区呈现全面不规则扩展。在扰动影响下,巷道围岩裂隙的分形维数较扰动前表现出明显的升维现象,随着侧压系数的增加,裂隙网络更为复杂,浅部裂隙进一步向深部蔓延,使岩体破裂程度更大,导致巷道发生严重变形破坏。 相似文献
7.
为了研究煤岩和砂岩在加载过程中的损伤对岩石力学性质的影响,分别对煤岩和砂岩做单轴和三轴全应力应变加卸载实验。进而构建岩石的损伤本构方程,实验结果表明:随着岩石损伤的增大,岩石的卸载弹性模量逐渐减小,塑性应变逐渐增加,表明岩石损伤属于弹塑性损伤;同时随着围压的增大,岩石的弹性模量随损伤的增加而下降的速率减小,表明岩石损伤主要引起岩石塑性应变的增加,岩石损伤破坏逐渐由脆性破坏向塑性破坏转变。假设岩石损伤速率符合威布尔统计分布规律,在此基础上构建煤岩损伤演化方程,通过实验和相关分析构建煤和砂岩弹塑性损伤本构方程。最后用构建的本构方程对实验曲线进行拟合,验证了弹塑性损伤本构方程的正确性。 相似文献
8.
Numerical modelling as an efficient method is widely employed in various fields of science and engineering. In rock mechanics and geomechanics, considerable progress has been made in numerical simulation on nonlinear and discontinuum problems. However, there is a tendency in this field that the theoretical framework for nonlinear and discontinuum problems becomes more and more complicated and sometimes becomes less practicable. This paper gives a brief introduction to a newly developed numerical code, RFPA2D (rock failure process analysis), which is mathematically a linear and continuum mechanics method for numerically processing nonlinear and discontinuum mechanics problems in rock failure. Although it is simple comparing with other numerical methods for nonlinear and discontinuum problems. It allows one to model the observed evolution of the progressive failure leading to collapse in brittle rocks. An important conclusion from the simulation results is that the microscale heterogeneity is the source of macroscale nonlinearity. Examples showing the potential applications are given in this paper. It can be seen that the RFPA2D has a unique ability to reveal the evolutionary nature of the fracture phenomenon from microfracture scale to global failure, and the great potential exists in modelling mining induced rockbursts and stability of underground openings in greath depth. The capabilities to handle dilation, self-induced faults or even block movement and rotation should also attract applications in the fields of geomechanics as well as rock mechanics. 相似文献
9.
深部资源开发中地下洞室围岩稳定控制必须面对峰后碎裂岩体的变形和破坏问题,目前深部多裂隙岩体开挖强卸荷引起的围岩变形破坏规律尚不清楚,常导致大体积塌方、大变形等重大工程事故。采用大尺度三维模型相似试验系统,分析具有不同倾角的多层节理的岩体在高地应力下开挖变形破坏规律。试验结果表明:裂隙倾角较小时,隧道上、下侧围岩主要发生大变形,左、右侧围岩呈现分层破裂现象,随着裂隙倾角增大,破裂区从洞室左、右两侧逐渐扩展到洞室全周,顶部岩体越容易发生大体积滑塌;隧道围岩由内向外应力和位移值呈波动状分布;洞周塑性区范围随裂隙倾角增大而增大,裂隙倾角越大,洞周塑性区越容易与洞室上、下侧裂隙面连通。该研究为保障深部工程的安全修建与运营提供了试验基础。 相似文献
10.
单轴压缩下花岗岩电磁信号的实验研究 总被引:2,自引:0,他引:2
利用自主研制的电荷感应仪对花岗岩样品在单轴压缩变形破裂过程中产生的电荷感应信号和磁信号进行了实验研究。实验结果表明,在岩石变形破裂达到峰值强度时比在峰值强度前有更强的电荷感应信号产生,电荷感应信号也受岩石应力的变化速率影响,在应力变化速率大时,有较强的电荷感应信号。在有变形破裂时,电荷感应信号就较强,变形破裂较小的面所对应的测点的电荷感应信号就较小,这表明电荷的产生和岩石的破裂有很大的关系。电信号比磁信号多,在岩石变形破裂时不断有电信号产生,且有明显的变化,而磁信号的变化不明显。电信号相比磁信号受外界的干扰小,幅值大,说明用电荷感应的方法监测岩石的变形破裂前兆更有优势。 相似文献
11.
为探究斜坡内赋存不同角度裂隙对反倾岩质斜坡倾倒变形影响效应,设计9组底摩擦试验,对比无裂隙、含一组陡裂隙和一陡一缓两组裂隙的3种类型试验,并研究不同裂隙角度对破裂面影响效应。研究发现:陡倾裂隙倾角的变化对岩坡变形及主破裂面形态有明显规律性影响,陡倾裂隙倾角越陡,发生倾倒破坏的初始破坏部位逐渐偏浅,破坏面积相对减小,破裂面从近直线型逐渐转变成近弧形;缓倾裂隙的赋存,使陡倾裂隙顺尖端开裂增长并且相互沟通形成贯通的破裂面过程更加快捷;主破裂面上覆层状岩体在倾倒变形时,会在其中部产生反向弯曲折断;通过定量分析,发现随着陡倾裂隙倾角增大,岩坡倾倒变形破坏幅度降低,而主破裂面无论是长度还是反映迹线复杂度的分维值亦随之降低。 相似文献
12.
温度与荷载共同作用下岩石力学行为和损伤特性的研究,对于深入认识高放废物处置库围岩在热-力耦合作用下的渐进破坏规律具有重要意义。以国内高放废物处置库预选区甘肃北山花岗岩为研究对象,通过开展不同热处理温度后的物理力学性质测试,并借助偏光显微和X射线衍射细微观分析手段,对其宏观变形、损伤演化以及破坏特征开展了研究。研究结果表明:随着热处理温度的升高,质量、密度、纵波波速和峰值强度总体呈下降的趋势,而体积和峰值应变则逐渐增大,1 000 ℃时不同围压下的峰值强度分别减小了77.70%、57.28%、37.33%及33.97%,峰值应变分别增加了196.37%、115.27%、105.13%及90.38%。在低温、低围压下三轴压缩过程中北山花岗岩的损伤发展迅速,破坏形式以张拉劈裂为主,且试样破坏后极为破碎,在破坏面附近存在多条贯通的轴向裂纹;随着温度和围压的增大,北山花岗岩的变形由脆性向塑性转变,破坏形式都是陡倾角的剪切破坏。 相似文献
13.
为了研究锚杆对节理剪切性能的作用机制和模式,开展了锚固节理岩体的实验室剪切试验,模拟了不同强度的岩体在剪力作用下的变形和受力特征,对比了锚杆加固前、后岩体的剪切变形规律,分析了节理岩体强度、预应力及锚固方式对节理的抗剪能力的影响,试验过程中通过应变片测点监测锚杆轴力的变化规律,研究了节理剪切过程中锚杆的轴向受力机制和变形特性。剪切试验完成后,取出剪切变形后的锚杆,统计了变形段长度与各参数之间的关系。通过试验结果分析,剪力-位移曲线存在明显的3个阶段:弹性阶段、屈服阶段和塑性强化阶段,曲线近似呈现双直线特征,弹性段锚杆主要发挥销钉作用;屈服段锚杆的轴向作用开始调动,锚杆同时存在销钉和约束作用;塑性段锚杆不再发挥销钉作用,只是依靠其轴向约束作用限制岩体的变形;曲线表现出韧性增强的剪切性能,这就使得锚杆锚固节理岩体的破坏特性由脆性转变为塑性,从而提高了岩体的稳定性和安全度。节理面的滑动对锚杆产生剪切作用,由于切向变形而产生了附加的锚杆轴向变形,锚杆的轴向应力随着剪切位移的增大呈增长的趋势,变形剧烈区域集中于节理面附近,且距离节理面越近其轴向应力增大越多。 相似文献
14.
采用理论分析和实验室测试的方法对锚固锚杆和自由锚杆中的导波传播规律进行了研究,并在频率为20 kHz~ 3 MHz范围内对锚固锚杆和自由锚杆波的传播速度进行了测试,发现锚固锚杆内不同频率的导波传播速度对锚固介质具有不同的敏感性。低频率段(20~200 kHz)的导波传播速度对锚杆锚固质量较为敏感,自由锚杆和锚固锚杆中导波的传播速度相差较大,适合于检测锚杆的锚固质量。高频率段(1~3 MHz)的导波传播速度对锚杆锚固质量不敏感,导波的传播速度基本不变,适合于锚杆完整性检测。探索了利用高频段多频率导波检测锚固锚杆长度的方法。实验室检测结果显示,本检测方法具有很高的精度 相似文献
15.
Field injectivity tests are widely used in the oil and gas industry to obtain key formation characteristics. The prevailing approaches for injectivity test interpretation rely on traditional analytical models. A number of parameters may affect the test results and lead to interpretation difficulties. Understanding their impacts on pressure response and fracture geometry of the test is essential for accurate test interpretation. In this work, a coupled flow and geomechanics model is developed for numerical simulation of field injectivity tests. The coupled model combines a cohesive zone model for simulating fluid-driven fracture and a poro-elastic/plastic model for simulating formation behavior. The model can capture fracture propagation, fluid flow within the fracture and formation, deformation of the formation, and evolution of pore pressure and stress around the wellbore and fracture during the tests. Numerical simulations are carried out to investigate the impacts of a multitude of parameters on test behaviors. The parameters include rock permeability, the leak-off coefficient of the fracture, rock stiffness, rock toughness, rock strength, plasticity deformation, and injection rate. The sensitivity of pressure response and fracture geometry on each parameter is reported and discussed. The coupled flow and geomechanics model provides additional advantages in the understanding of the fundamental mechanisms of field injectivity tests. 相似文献
16.
吉地地区早元古代变质岩构造形的调查研究和构造解析,证实其是一套具有多期变化和不同变形史的变质岩系。其岩(层)石,均发生了形态,物态和位态的改变。 相似文献
17.
甘肃南部坪定-化马断裂带滑坡变形特征及其防治 总被引:1,自引:0,他引:1
以坪定-化马断裂带泄流坡滑坡为例,通过野外调查和变形监测资料分析,深入剖析了断裂带滑坡变形特征和形成机理,提出了断裂带滑坡的防治方法和治理措施。断裂带滑坡一般为大型—巨型滑坡,由多个次级滑坡体组成,历史上曾多次活动。变形监测资料表明,泄流坡滑坡变形目前处于匀速蠕变阶段,呈现蠕滑-塑流拉裂-土(石)流的变形破坏特点。断裂破碎带及其现今活动为滑坡长期蠕滑变形提供了物质基础,而降雨是滑坡体失稳下滑的主要诱发因素。断裂带滑坡按岩性可归类为松散堆积层滑坡。因此,对断裂带滑坡的防治应以防为主,以治为辅,即开展滑坡变形实时监测和群测群防,辅以滑坡表面排水、坡脚压载等措施,以减缓或防止泄流坡滑坡再次形成灾害。 相似文献
18.
为研究碳酸盐岩储层应力敏感性及其对气藏产能和气井见水的影响,选取塔里木盆地和田河气田奥陶系钻井岩心,
开展了应力敏感性研究,结合实验结果及数学推导建立了裂缝开度和有效应力之间的力学关系模型,最终借助有限元方
法,对持续开发过程中碳酸盐岩储层裂缝开度的空间变化规律进行了模拟分析。结果表明:裂缝开度的变化随围压或有效
应力变化呈非线性关系;随着围压或有效应力的升高,裂缝开度不断减小,0~0.8 MPa之间减小速度快,岩样应力敏感性
强,到2.6 MPa或5.4 MPa后变化趋于稳定,说明高应力环境下,岩样的应力敏感性减弱,塑性变形特征明显;随着围压的
逐渐降低,裂缝开度不断增大,但不能恢复至初始情况;未来若干年内随着快速开采,和田河气田有效应力增大,裂缝闭
合,产能下降;随着生产井关闭或开采速度放缓,气水界面之上有效应力仍然降低,裂缝闭合,界面之下有效应力增大,
裂缝开启,底水上升,破坏气藏生产。建议在裂缝性碳酸盐岩气藏开发政策的制定过程中,一方面要开展裂缝分布精细研
究,分析裂缝应力敏感性主控因素,同时要制定合理的开发方式和开采速度,确保气藏稳产、高产。 相似文献
19.
基于PIV技术,采用相似材料预制贯通单裂隙岩体试件并开展压-剪试验,探究了裂隙开度对贯通单裂隙试件的强度、变形及破坏过程的影响。结果表明:(1)试件发生初始断裂时不同裂隙开度试验组应力均明显下降,且随着开度的增大裂隙岩体胶结部位塑性变形增强,岩体试件的特征应力值减小;(2)裂隙开度影响到裂隙和胶结部位变形在试件总变形中所占比例,进而影响裂隙试件的轴向峰值应变和横向峰值应变,开度越大裂隙试件的轴向峰值应变与横向峰值应变越小;(3)随着开度增大试件初始断裂部位由中下部向中上部转移,同时试件逐渐由拉伸剪切复合破坏转变为单一的剪切破坏;(4)需达到位移阈值k试件表面才能产生裂隙,而预制裂隙开度增大会降低试件的位移阈值k。其结果为研究深部矿井裂隙沟通造成的突水溃砂机理奠定了一定的基础。 相似文献
20.
小净距公路隧道支护时机对围岩稳定性影响研究 总被引:5,自引:0,他引:5
随着西部高速公路的大规模建设,受地形和施工场地的限制,小净距隧道已越来越多地在工程实际中使用。由于小净距隧道施工工艺复杂,围岩变形和破坏机理也较为复杂,隧道的施工和支护时机对围岩和支护结构的稳定性影响很大。结合正在施工的沪-蓉-西高速公路漆树槽分岔隧道小净距段的施工特点,开展隧道在不同荷载释放比例下不同支护时机对围岩稳定性影响的研究。研究结果表明:支护越早,衬砌和锚杆承担的荷载越大,围岩的塑性变形和塑性区范围越小。及时施作二次衬砌,可以显著控制岩柱部位的变形,改善围岩的应力状态。研究成果将对同类条件下小净距隧道的施工和设计具有指导意义。 相似文献