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1.
Xiaoshan Shi Da’an Liu Wei Yao Yirui Shi Tiewu Tang Bonan Wang Weige Han 《Arabian Journal of Geosciences》2018,11(2):42
Shale usually exhibits strong anisotropy due to depositional environment and pre-existed microcracks caused by geological loading for a long time. Characterizing mechanical anisotropy properties of shale, especially the tensile strength anisotropy, plays an important role in the successful exploitation of shale gas. In this work, static and dynamic tests with semi-circular bending (SCB) specimen are conducted using hydraulic servo-control machine and modified split Hopkinson pressure bar (SHPB) system, respectively. To survey the tensile strength anisotropy of shale induced by stratification, samples are cored and cut into half by diametrical cutting along different angles relative to the stratification (0°, 30°, 45°, 60°, 90°, C0°). For dynamic tests, the utilization of pulse shaping technique ensures that the samples obtain dynamic equilibrium. The tensile strength values exhibit clear anisotropy under both static and dynamic loading conditions and show typical loading rate dependence at a given angle. An anisotropic index named αk is defined to describe the tensile strength anisotropy at a certain loading rate. The outcomes illustrate that the anisotropic index decreases as the loading rate increases. In addition, failure pattern owns different characteristic under different loading angles with respect to the stratification. These phenomena may be explained by the pre-existing microcracks, and cracks interaction during dynamic loading conditions. 相似文献
2.
Zhang Yue Zhang Qiang-Yong Zhou Xin-Yu Xiang Wen 《Geotechnical and Geological Engineering》2021,39(2):709-718
To study the tensile strength of rock under different loading rates, direct tensile test is the most accurate method. However, the eccentric tension in the process of rock direct tensile test has a significant influence on the test results. In this paper, firstly, a self-developed centering device for rock direct tensile test is introduced, which can effectively eliminate the eccentric tension in the process of rock direct tensile test. Then, with the aid of the self-developed centering device, the direct tensile tests of red sandstone under the loading rates of 0.001 mm/s, 0.01 mm/s and 0.1 mm/s are successfully carried out. After tests, both the macro failure characteristics and the scanning electron microscope micrograph show that the fracture pattern of the rock is caused by pure tensile loading. The stress-strain curves of the direct tensile test of the red sandstone show that the process of the direct tensile test can be roughly divided into four stages. With the increase of loading rate, both of the tensile strength and the peak tensile strain of the rock increase obviously. The direct tensile test of the red sandstone shows obvious loading rate effect.
相似文献3.
不同加载速率条件下岩石的力学特性,对于其动载下破裂内在机制的研究具有积极的意义。基于颗粒流理论,通过黏结颗粒模型(bonded particle model,简称BPM)虚拟实现不同加载速率0.001~0.500 m/s下花岗岩单轴压缩和巴西劈裂试验,定量分析加载速率对应力-应变、破裂形态、应变能率及声发射的影响。结果表明:单轴抗压强度和抗拉强度及其对应峰值应变随加载速率增加而非线性增长;单轴压缩作用下,随加载速率增加,试样由单一斜截面破坏向多斜截面破坏转变,且主控裂隙带宽度急剧增大,由裂纹数量及水平向高应变率区域变化规律可明显看出,试样破坏程度随着加载速率增加而逐渐加剧;巴西劈裂作用下试样从一条主控裂隙向多条主控裂隙转变,且裂纹向圆盘试样两侧边缘部分延伸,破坏程度加剧;单轴压缩和巴西劈裂作用下,声发射事件及应变能率均随加载速率增加而呈现出非线性增长趋势。 相似文献
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Fracturing and Failure Behavior of Carrara Marble in Quasistatic and Dynamic Brazilian Disc Tests 总被引:1,自引:0,他引:1
Louis Ngai Yuen Wong Chunjiang Zou Yi Cheng 《Rock Mechanics and Rock Engineering》2014,47(4):1117-1133
The tensile strength and fracturing behavior of Carrara marble subjected to the dynamic Brazilian disc test using the split Hopkinson pressure bar technique are determined and compared with those obtained by the conventional quasistatic Brazilian disc test. Detailed observation of the cracking processes is aided by high-speed video footage captured at a frame rate of 100,000 frames per second. The dynamic increase factor is computed, revealing a strong strain rate dependence of the Carrara marble when subjected to strain rates above 1 s?1. Similar to the quasistatic loading tests, conspicuous white zones/patches commonly appear prior to the initiation of visible cracks in the dynamic loading tests. Identification of the white patch initiation and evolution is aided by image comparison software. Comparing the cracking and failure processes under quasistatic and dynamic loading, some distinct differences in the white patch geometry and initiation load are observed. In addition, the extent of the compressive failure zones around the contact points between the loading platens and specimens is found to increase with the strain rate. 相似文献
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Experimental and Numerical Studies on Determination of Indirect Tensile Strength of Rocks 总被引:4,自引:2,他引:2
Nazife Erarslan Zheng Zhao Liang David John Williams 《Rock Mechanics and Rock Engineering》2012,45(5):739-751
Indirect tension tests using Brisbane tuff Brazilian disc specimens under standard Brazilian jaws and various loading arcs were performed. The standard Brazilian indirect tensile tests caused catastrophic, crushing failure of the disc specimens, rather than the expected tensile splitting failure initiated by a central crack. This led to an investigation of the fracturing of Brazilian disc specimens and the existing indirect tensile Brazilian test using steel loading arcs with different angles. The results showed that the ultimate failure load increased with increasing loading arc angles. With no international standard for determining indirect tensile strength of rocks under diametral load, numerical modelling and analytical solutions were undertaken. Numerical simulations using RFPA2D software were conducted with a heterogeneous material model. The results predicted tensile stress in the discs and visually reproduced the progressive fracture process. It was concluded that standard Brazilian jaws cause catastrophic, crushing failure of the disc specimens instead of producing a central splitting crack. The experimental and numerical results showed that 20° and 30° loading arcs result in diametral splitting fractures starting at the disc centre. Moreover, intrinsic material properties (e.g. fracture toughness) may be used to propose the best loading configuration to determine the indirect tensile strength of rocks. Here, by using numerical outcomes and empirical relationships between fracture toughness and tensile strength, the best loading geometry to obtain the most accurate indirect tensile strength of rocks was the 2α?=?30° loading arc. 相似文献
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Static and Dynamic Flexural Strength Anisotropy of Barre Granite 总被引:5,自引:2,他引:3
Granite exhibits anisotropy due to pre-existing microcracks under tectonic loadings; and the mechanical property anisotropy such as flexural/tensile strength is vital to many rock engineering applications. In this paper, Barre Granite is studied to understand the flexural strength anisotropy under a wide range of loading rates using newly proposed semi-circular bend tests. Static tests are conducted with a MTS hydraulic servo-control testing machine and dynamic tests with a split Hopkinson pressure bar (SHPB) system. Six samples groups are fabricated with respect to the three principle directions of Barre granite. Pulse shaping technique is used in all dynamic SHPB tests to facilitate dynamic stress equilibrium. Finite element method is utilized to build up equations calculating the flexural tensile strength. For samples in the same orientation group, a loading rate dependence of the flexural tensile strength is observed. The measured flexural tensile strength is higher than the tensile strength measured using Brazilian disc method at given loading rate and this scenario has been rationalized using a non-local failure theory. The flexural tensile strength anisotropy features obvious dependence on the loading rates, the higher the loading rate, the less the anisotropy and this phenomenon may be explained considering the interaction of the preferentially oriented microcracks. 相似文献
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High temperature damage of rock is a critical problem that must be well known for underground coal gasification, underground storage of nuclear waste, repairment of underground buildings after fire disaster. In order to study the influences of loading rate and high temperature on the tensile strength of sandstone, Brazilian splitting tests were conducted on sandstone disk samples treated with five different temperature levels between 25 and 800 °C at six different loading rates between 0.01 and 10 mm/min. Test results showed that tensile strength of disk samples increases gradually and reaches to the maximum at the temperature level of 400 °C, then drop sharply. The tensile strength of sandstone samples is characterized by obvious rate effect and it increases continuously with the increase of loading rate, meeting a Logarithmic Function. The lower limit tensile strength of sandstone ignoring the influence of rate effect was calculated, and it is helpful for providing some basis for the design of rock engineering. 相似文献
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不同应变率下砂岩动态强度准则的试验研究 总被引:1,自引:0,他引:1
分别利用RMT-150C和多功能分离式霍普金森压杆(SHPB)试验系统对砂岩进行了不同应变率下的单轴压缩、三轴压缩和拉伸试验。结果表明,在围压为0或围压一定的情况下,应变率低于102 s-1时,抗压强度的增加与应变率的量级呈正比;在应变率高于102 s-1时,岩石的抗压强度增加趋势与应变率的1/3次方呈正比。拉伸强度也存在类似规律。针对101~102 s-1应变率范围内缺少岩石动态强度准则这一现状,根据上述试验规律,结合Mohr-Coulomb准则、Hoek-Brown准则和Griffith准则的原理,给出了不同应变率范围内动态Mohr-Coulomb准则和动态Hoek-Brown准则的具体表达形式。研究结果表明,在低应变率情况下,动态Mohr-Coulomb准则和动态Hoek-Brown准则均适用,但Griffith准则判别结果误差很大。在高应变率情况下,动态Mohr-Coulomb准则比较适用,Griffith准则仅适用于评估高应变率单轴抗压强度和抗拉强度之间的关系。 相似文献
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An Example of Realistic Modelling of Rock Dynamics Problems: FEM/DEM Simulation of Dynamic Brazilian Test on Barre Granite 总被引:2,自引:1,他引:1
The scope of this study is to numerically simulate the behaviour of Brazilian disc specimens as observed in laboratory during dynamic, high-strain rate, indirect tensile tests using an innovative combined finite-discrete element method (FEM/DEM) research code. Laboratory experiments using a split Hopkinson pressure bar (SHPB) apparatus were conducted by the authors and the measured indirect tensile strength values were used to verify the FEM/DEM models. In the models the applied boundary conditions, related to the loading rate of the specimen, were matched with the experimental observations. The results of the numerical simulations, including tensile strength and failure time, are in agreement with the laboratory findings. The main failure mechanisms, i.e. tensile splitting along loading axis and shear failure close to loading platens are captured by the numerical model. A linear relationship between tensile strength and loading rate is found for the range of dynamic strain rates tested and simulated. The simulation results are in good agreement with laboratory observations and demonstrate the potential for using FEM/DEM to realistically model dynamic response of rocks. 相似文献
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基于静载条件下的常规力学试验可以证明,页岩层理面的存在是导致其力学行为各向异性的主要原因,而应变率的变化势必也影响着页岩各向异性特征的变化。为探究应变率对页岩各向异性力学行为的影响,分别在10-4 s-1、5×10-4 s-1、10-3 s-1和10-2 s-1 4种应变率条件下对不同层理角度的页岩进行单轴压缩力学试验。研究表明:(1)页岩弹性模量的各向异性程度随应变率升高而减弱,泊松比的各向异性程度受应变率的影响不明显;(2)页岩峰值强度随应变率升高而增加,其中45°~60°试样应变率敏感性最强,页岩的强度各向异性度随应变率升高而降低;(3)随着应变率升高,层理面对页岩破坏模式的控制作用得到削弱,破坏模式的各向异性程度减弱。总体而言,页岩的各向异性力学特征随应变率升高而减弱,研究结论有助于页岩力学行为的深入理解。 相似文献
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骨料-砂浆界面过渡区的力学性能对混凝土宏观受力特性有很重要的影响。在MTS试验机上对40个砂浆-花岗岩交界面试件进行了动态轴向拉伸力学性能试验研究,分析不同应变率(10-6~10-2 s-1)、不同程度预静载(30%、50%、70%静载强度)以及往复荷载(1、5 Hz)对交界面动态轴向拉伸力学性能的影响,并对其动态破坏机制进行了初探。研究结果表明:①交界面动抗拉强度随应变率增加有明显增加趋势;②较小预静载(不超过50%)不仅没有使动抗拉强度降低,反而有可能提高动抗拉强度,较大的预静载对损伤弱化效应起主导作用,从而使动抗拉强度降低;③往复荷载作用下会出现明显的低周疲劳损伤,而且残余变形随往复荷载的频率增加而减小;④不同应变率下的交界面应力-应变曲线上升段类似,约50%强度后呈现非线性变化,但非线性程度随应变率增加趋向不明显。另外,尝试性地进行了交界面试件轴向拉伸应力-应变全曲线的试验,得到了稳定断裂的全过程曲线。 相似文献
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为研究加载速率对砂岩抗拉强度的影响效应及影响机制,设计开展5种加载速率的劈裂试验,综合分析抗拉强度、破坏特征、能量参数和劈裂面微观形貌变化规律及相关性。结果表明,(1) 随着加载速率增大,砂岩劈裂抗拉强度逐渐增大,总体呈现先陡后缓的趋势,加载速率在0.01~0.10 kN/s范围内时抗拉强度增长迅速,0.10~1.00 kN/s范围内时抗拉强度增长趋势渐缓;(2) 随着加载速率的增大,岩样吸收的总能量增大,弹性应变能占总能量的比值逐渐增大,耗散能占总能量的比值逐渐减小,加载至破坏时裂纹扩展形成宏观劈裂面的时间呈数量级减小,达到峰值应力时弹性应变能的释放,导致岩样破坏的突发性增强,使得劈裂面形貌特征在宏观和微观上逐渐变得复杂,对应抗拉强度逐渐增大;(3) 在岩石劈裂试验过程中加载速率、能量参数、劈裂面形貌特征与抗拉强度密切相关,加载速率影响加载过程中能量的总量与分配,能量参数的变化直接影响岩样的破坏过程及劈裂面的形貌特征,最后宏观上表现为抗拉强度的差异。文中相关分析方法和思路可为类似试验提供较好的参考。 相似文献
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Viscoelastic damage model for asphalt concrete 总被引:1,自引:1,他引:0
The strain rate-dependent mechanical behavior of asphalt concrete was characterized using unconfined compression tests carried
out at different loading rates. It was shown that at high strain rates, the elastic deformation and peak axial stress are
highly sensitive to strain rate. Both increase as the strain rate increases. At very low strain rates, elastic response and
unconfined compressive strength are relatively independent of the loading rate. Based on the experimental observations, a
simple viscoelastic damage model is proposed for the strain rate-dependent unconfined compression behavior of asphalt concrete.
In the model, strain rate response is modeled by a two-component viscoelastic model consisting of a constant elastic modulus
and a viscous modulus that is related by a power-law function to the axial strain rate. Failure and strain softening are modeled
via a damage formulation where damage evolution in the asphalt concrete is given by a simple form of the Weibull distribution
function. The model was shown to be capable of describing the strain rate-dependent deformation, compressive strength, strain-softening
and creep behavior of asphalt concrete. The model is relatively simple and requires only five material parameters. 相似文献
15.
基于不同层理角度的页岩巴西劈裂试验,利用高速摄像系统和声发射系统,对页岩力学特性、裂纹扩展及声发射特征的层理效应进行了深入研究。结果表明:(1)页岩巴西劈裂破坏过程可以分为压密、弹性和破坏3个阶段;(2)页岩抗拉强度、劈裂模量和应力峰值时变形的各向异性特征明显,层理角度 30°时,层理效应最为明显, 90°时影响最小;(3) 0°和 15°时试样的裂纹破坏面基本是沿着层理面, 30°时裂纹面交切层理面,与加载基线面重合, 45°~90°的各试样的断裂面呈不同程度的偏离加载基线面,为弧面或曲面;(4) 30°和 45°为破坏机制转化角,其中 30°为沿着层理面压致性张拉开裂转化为交切层理面开裂的转化角, 45°为交切层理面开裂转化为交切层理面且沿着层理面不同程度的剪切滑移开裂的转化角;(5)声发射活动性和能量释放随层理角度的增加而加强,主要因为受层理角度的影响,其破坏机制不同,这也进一步验证了页岩随层理角度的变化,其破坏机制的各向异性。能率峰值与抗拉强度具有很好的线性关系,表明声发射能率峰值能很好地反映岩石抗拉伸破坏的程度。 相似文献
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以宁波④2层黏土为对象,在单双向两种不同振动模式下,通过不同围压及不同动应力比条件下的动三轴剪切试验,研究宁波软土的动力特性以及振后强度弱化特性。试验结果表明:单向振动模式下(不产生拉应力)产生的动弹性模量衰减、累积塑性应变比双向振动条件下(产生拉应力)的发展显著,但双幅弹性应变发展较弱;在振后剪切阶段,双向振动使得试样产生拉应力,振后抗剪强度弱化比单向振动明显;单向振动模式下,试样发生剪胀,围压越大,剪胀程度减弱直至消失,孔压-轴向应变曲线存在峰值,表现出类超固结土特性;确定了在两种振动模式下,适用于宁波④2层黏土的振后弱化参数。 相似文献
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Uniaxial compression and tension tests of anthracite and loading rate dependence of peak strength 总被引:2,自引:0,他引:2
The mechanical characteristics of coal under uniaxial compressive stress and uniaxial tensile stress are key factors in investigations of the stability of galleries and coal faces, and are vital considerations for the efficient design of coalmines, disaster prevention, and environmental preservation. These mechanical characteristics have long been a topic of research, but remain insufficiently understood. In this study we performed uniaxial compression tests and uniaxial tension tests on coal, with particular attention to two concerns. The first was to measure the loading rate dependence of the peak strength of coal. Coal shows high sample-to-sample scatter in strength; test methods that are successful in comparatively homogeneous rock types cannot be used for coal. We therefore used an alternative test method that was recently developed by the authors. Anthracite samples were subjected to alternating slow and fast strain rates. Measured variations in stress during this process were used to estimate the loading rate dependence of peak strength. The second objective was to obtain complete stress–strain curves for coal under uniaxial tensile stress. It is difficult to hold samples secure during a tensile test; consequently, such curves have yet to be obtained. This study presents a successful application of the authors' method to the analysis of coal samples, yielding a complete stress–strain curve under tensile stress. The two methods presented here hold promise for application not only to anthracite but also to a wide variety of coals. It is possible to derive the values of the constants used in constitutive equations from the obtained experimental results. Once these equations are determined, they can be incorporated into finite-element software to investigate various time-dependent behaviors of coal and aid in the efficient design of coalmines and the prevention of subsidence and mine disasters. 相似文献
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Reduction in strength and stiffness in rocks attributed to an increase in water content has been extensively researched on a large variety of rock types over the past decades. Due to the considerable variations of texture and lithology, the extent of water-weakening effect is highly varied among different rock types, spanning from nearly negligible in quartzite to 90 % of uniaxial compressive strength reduction in shale. Readers, however, often face difficulties in comparing the data published in different sources due to the discrepancy of experimental procedures of obtaining the water saturation state and how the raw laboratory data is interpreted. In view of this, the present paper first reviews the terminologies commonly used to quantify the amount of water stored in rocks. The second part of the paper reviews the water-weakening effects on rock strengths, particularly focusing on uniaxial compressive strength and modulus, as well as tensile strength, under quasi-static loading and dynamic loading. The correlation relationships established among various parameters, including porosity, density and fabric of rocks, and external factors such as strain rate, surface tension and dielectric constant of the saturating liquid, absorption percentage and suction pressure, are reviewed and presented toward the end of the paper. 相似文献