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1.
S. Y. Wang S. W. Sloan M. L. Huang C. A. Tang 《Rock Mechanics and Rock Engineering》2011,44(2):179-198
Using a numerical modelling code, rock failure process analysis, 2D, the progressive failure process and associated acoustic
emission behaviour of serial and parallel rock samples were simulated. Both serial- and parallel sample models are presented
for investigating the mechanism of rock pillar failure. As expected, the numerical results show that not only the stiffness,
but also the uniaxial compressive strength of the rock plays an important role in pillar instability. For serial pillars,
the elastic rebound of a rock pillar with higher uniaxial compressive strength can lead to the sudden failure of an adjacent
rock pillar with lower uniaxial compressive strength. The failure zone forms and develops in the pillar with lower uniaxial
compressive strength; however, the failure zone does not pass across the interface of the two pillars. In comparison, when
two pillars have the same uniaxial compressive strengths but different elastic moduli, both serial pillars fail, and the failure
zone in the two pillars can interact, passing across the interface and entering the other pillar. For parallel pillars, damage
always develops in the pillar having the lower uniaxial compressive strength or lower elastic modulus. Furthermore, in accordance
with the Kaiser effect, the stress-induced damage in a rock pillar is irreversible, and only when the previous stress state
in the failed rock pillar is exceeded or the subsequent applied energy is larger than the energy released by the external
loading will further damage continue to occur. In addition, the homogeneity index of rock also can affect the failure modes
of parallel pillars, even though the uniaxial compressive strength and stiffness of each pillar are the same. 相似文献
2.
Naturally fractured mine pillars provide an excellent example of the importance of accurately determining rock mass strength.
Failure in slender pillars is predominantly controlled by naturally occurring discontinuities, their influence diminishing
with increasing pillar width, with wider pillars failing through a combination of brittle and shearing processes. To accurately
simulate this behaviour by numerical modelling, the current analysis incorporates a more realistic representation of the mechanical
behaviour of discrete fracture systems. This involves realistic simulation and representation of fracture networks, either
as individual entities or as a collective system of fracture sets, or a combination of both. By using an integrated finite
element/discrete element–discrete fracture network approach it is possible to study the failure of rock masses in tension
and compression, along both existing pre-existing fractures and through intact rock bridges, and incorporating complex kinematic
mechanisms. The proposed modelling approach fully captures the anisotropic and inhomogeneous effects of natural jointing and
is considered to be more realistic than methods relying solely on continuum or discontinuum representation. The paper concludes
with a discussion on the development of synthetic rock mass properties, with the intention of providing a more robust link
between rock mass strength and rock mass classification systems. 相似文献
3.
4.
矿井巷道在穿越含瓦斯断层或揭煤掘进过程中常常遇到前方岩柱保护厚度与延期突出问题。为了探索岩柱防突厚 度与时间的非线性耦合关系,应用RLW-2000型岩石三轴流变仪,对含煤岩系中的砂质泥岩、砂岩和泥岩进行了分级加载条件下的单轴压缩蠕变试验。通过对经典流变组合模型的分析及Matlab最小二乘迭代法的拟合,建立了改进的的七元件非线性黏弹塑性本构模型,并建立了基于岩体流变性的岩柱临界安全厚度的计算模型。豫西大平煤矿实例计算表明,埋深612 m的泥岩巷道,防突岩柱使用年限在10、20、30 a时相应的保护厚度分别为8.73、23.56、39.41 m;理论安全岩柱厚度与该矿“10 ? 20”瓦斯突出案例较为吻合,计算模型对同类工程具有一定的借鉴意义。 相似文献
5.
我国西部神府东胜煤田主要赋存浅埋近距煤层,煤层埋藏浅,覆岩上部厚松散层大范围分布,近距煤层开采导致覆岩与地表裂缝发育严重,加剧了原本脆弱的生态环境进一步恶化。为探究浅埋近距煤层开采覆岩与地表采动裂缝发育规律,掌握其控制方法,以柠条塔煤矿1-2煤层和2-2煤层开采为背景,结合实测统计分析、物理模拟和分形理论,掌握浅埋顶部单一煤层开采和重复采动下覆岩与地表裂缝发育特征,揭示煤柱布置对裂缝发育的控制作用。研究表明,煤层开采导致的地表裂缝可分为平行于工作面的动态裂缝和工作面开采边界地表裂缝(切眼边界侧地表裂缝和区段煤柱侧地表裂缝),动态裂缝在开采后能够实现自修复,工作面开采边界的地表裂缝不能自修复。下煤层开采区段煤柱侧覆岩与地表采动裂缝发育严重,其与区段煤柱错距密切相关。1-2煤层开采后,基岩垮落角为60°,土层垮落角为65°,边界煤柱侧地表裂缝的宽度为0.26 m。下部2-2煤层开采,煤柱叠置、错距20、40 m时,区段煤柱侧覆岩采动裂缝宽度分别为0.81、0.45和0.22 m,地表裂缝宽度分别为0.65、0.30和0.12 m。通过确定合理煤柱布置方式,能够有效控制覆岩和地表采动裂缝的发育程度,据此确定柠条塔煤矿1-2煤层和2-2煤层开采的合理煤柱错距应大于40 m。 相似文献
6.
S. Y. Wang K. C. Lam S. K. Au C. A. Tang W. C. Zhu T. H. Yang 《Rock Mechanics and Rock Engineering》2006,39(5):445-467
Summary. Based on cusp-type catastrophe theory, a sample rock–rock model for studying the pillar rockburst mechanism is presented in
this paper. It is shown that the stiffness ratio, K, of the roof and floor to the pillar plays an important role in the outbreak of instability. Additionally, simple formulae
for the deformation jump and the energy release are derived. Based on the assumption that there exists a proportional relationship
between the number of microseismic events and microfractured elements, the theoretical microseismic event rate produced by
the double rock sample, loaded in series under uniaxial compression, is obtained. Using a newly developed numerical code,
RFPA2D, the progressive failure process and associated microseismic behavior of the twin rock samples are simulated, which shows
that the spatial distribution of microseismic events develops progressively from disorder at the initial loading stage to
order prior to the main shock. The numerically simulated results also confirm that a soft roof and floor promote an unstable
failure or collapse of pillars, while a stiff roof and floor can lead to a stable failure of pillars. Additionally, the simulated
results reproduce the deformation jump and the energy release that occur during a pillar rockburst. It is demonstrated that
the proposed model properly simulates the pillar failure process. 相似文献
7.
The study of rock pillar failure mechanisms is an issue that is faced routinely in mining and civil industries. In mining operation, the establishment of several mining levels is often necessary to ensure adequate production. This result in the formation of pillars that must be recovered under often high stress conditions at later stages of excavation. It is, therefore, beneficial to develop guidelines that can be used in the design of rock pillars. The aim of this paper is to delve into the mechanisms involved in pillar failure as well as to investigate the non-linear behavior of rock pillars. An extensive numerical analysis was carried out to study the pillar deformation and failure process under natural loading conditions. Effects of pillar geometry and pillar strength parameters on pillar behavior were investigated for hard rock material typical of Canadian mining conditions. Numerical data were compared against field data recorded in Canadian mines. A fairly good match was achieved between numerical and field data and the conducted analysis can be used as a qualitative guideline in the design of rock pillars in underground structures. 相似文献
8.
Summary This paper develops a rational approach for design of coal pillars under weak floor strata conditions considering ultimate bearing capacity (UBC) as well as pillar settlement. An approximate solution is presented for estimation of UBC for a shallow foundation on a two-layered rock system with consideration of both cohesion (c) and (ø) for both layers. Similarly, deformability underneath a full-size pillar is estimated from deformability calculated from plate loading tests. The effect of adjacent pillars on UBC and deformability of coal pillars in a panel is considered using foundation engineering analysis techniques. The design of pillars based on limiting settlements considers both differential settlements as well as mean settlement of pillar in a panel. An attempt is made to validate the proposed design approach based on field data and observations at an Illinois mine. 相似文献
9.
J. F. Abel Jr. 《Geotechnical and Geological Engineering》1988,6(3):215-248
Summary Soft rock pillars can be designed by several methods available in the mining literature. All of these methods include the effect of shape, or geometry, on the average strength of specimens and pillars. All of the pillar design methods include some measurement of the strength of specimens of the pillar rock. The most common rock specimen strength property measured is the unconfined compressive strength. However, the average strength of triaxially confined rock specimens is much greater than the unconfined specimen strength, which can be more important to pillar strength. The estimation of the strength of a pillar is complicated by the decrease in rock specimen strength with increase in specimen size.Editor's note: In common with North American engineering practise, the paper uses English units throughout, where feasible conversions are included in the text. Where not, the following factors may be used: 1 inch=25.4 mm; 1 ft=0.3048 m; 1 lbf/in.–2=6.895 kn/m–2; 1Tonf.=8.896 kN. 相似文献
10.
Summary This paper presents field observations on distribution of vertical stress during an experimental trial of extraction of pillars in four panels in 6.0–8.0m thick coal seam, as a part of a Science and Technology project funded by the Ministry of Coal, Govt of India. Variation of induced stress based on continuous monitoring data for the first time in Indian coal mining scenario showed distinct anomalies and potential for better understanding of strata mechanics and warning of major roof falls during pillar extraction. Numerical model studies based on finite difference code – FLAC were also conducted for stress analysis in idealized pillar mining sequence so that the influence of each stage of extraction could be identified. The numerical model results on stress concentration over the pillars, stooks and ribs showed variation of 3.6%, 8.3% and 6.1%, respectively as compared to the field observations for 7m thick coal seam at a depth cover of 60m from the surface. This indicates validity of the numerical models for stress analysis in the simulated conditions of the present field experiments. 相似文献
11.
为了对近直立特厚煤层冲击地压进行防治,采用地面岩柱深孔爆破方法对煤层间岩柱进行预裂爆破,并采用地面EH-4探测法和井下瞬变电磁探测法对爆破前后岩柱体的物理力学结构进行探测,对卸压效果进行分析。EH-4探测表明,深孔爆破后岩柱结构破坏明显,在+550~+650 m水平范围时,岩柱体的电阻率等值线由近直立向近水平发育,视电阻率值主要集中在150~250 Ω·m,明显高于未爆破区域;井下瞬变电磁探测表明,深孔爆破后岩柱裂隙增大,探测区域前方20~90 m,视电阻率值从爆破前的25~86 Ω·m增加到爆破后的84~216 Ω·m,出现高阻异常区域。深孔爆破后岩柱破碎效果较好,岩柱体内积聚的弹性能得到释放,卸压效果明显,有效降低了冲击地压发生的危险性。 相似文献
12.
导水裂隙带高度的确定对松散承压含水层下煤矿安全开采和矿区生态环境保护具有重要意义。以往根据塑性区判断导水裂隙带范围的数值模拟方法不能完全反映覆岩的破断机制。为了更准确地预测导水裂隙带发育高度,应用断裂力学方法,将裂纹尖端K场区内的应力强度因子断裂判据与摩尔-库伦屈服准则结合,提出了原生裂隙存在时的岩石断裂准则。利用自仿射分形模型建立起原生裂隙场分布,并通过有限元分析软件COMSOL Multiphysics将原生裂隙场和岩石断裂准则应用到导水裂隙带发育的数值模拟中,对淮北煤田青东煤矿的839工作面开采进行了模拟计算。结果显示,考虑原生裂隙时,导水裂隙带在贯通后高度达到92.5 m。与传统数值模拟和经验公式法相比,考虑原生裂隙的模拟结果与现场测量结果更为接近。这说明,采用自仿射分形模型所生成的裂隙场可以较好地模拟岩体内复杂而无序的原生裂隙分布,且与传统数值模拟和经验公式法相比,考虑原生裂隙的模拟方法能够更好地反映导水裂隙带的发育规律。 相似文献
13.
Summary Significant increases in extraction ratio on the order of 6 to 8%, equivalent to as much as 142 t/m of panel advance, have occurred at the Big Island Mine during the last five years with the help of a practical rock mechanics program. This increase in resource recovery has also contributed to improvements in productivity. Both conventional and continuous machine mining have been used to mine two flat-laying trona beds at depths of 250 and 260 m in the Green River Formation in southwestern Wyoming.Conventional room and pillar mining originally was conducted in panels with extraction ratios of 58 to 60%. The use of yield pillars has allowed the panel extraction to increase to 66%. Continuous machine mining was introduced recently, with a 64% extraction ratio using long, narrow pillars and wide rooms. Further improvements in resource recovery seem feasible in the light of present mining experience.The rock mechanics program consisted of field instrumentation to determine the pillar and roof response to mining, and computer modelling to evaluate and help determine the stability of various layouts, which were then adopted for mining. 相似文献
14.
Intensive strata behaviors are generated when the No. 8707 working face of the 8# coal seam in a coal mine is advanced by way of the pillars left over of the upper part of 7# close distance coal seam. The theoretical analysis, numerical simulation and filed measurement were utilized to obtain the rule of the stress change when the 8707 working face of the 8# coal seam passes the pillars left over of the 7# coal seam. Meanwhile, a pressure-relief mining (PRM) technology was put forward. According to the research results, when the 8707 working face in the 8# coal seam was advanced to the position that was 20 m in front of the pillar left over, the abutment pressure reached the maximum for 26 MPa and the stress concentration factor was 3.25, which was likely to give rise to the rock burst. With the advance of the working face, the abutment pressure was reduced slowly. As the 8707 working face advanced 15 m away the pillar left over, the transfixed shear failure region of 45° was found in the bedrocks of the upper and lower coal seams, which was readily to give rise to the shear rupture, leading to the rock burst. Based on the aforementioned research, this research carried out the PRM by applying the hydraulic fracturing technology on the coal roof and pillar, which can ensure the safety and efficient mining of working faces. 相似文献
15.
Characterisation of confinement effect on jointed rock pillars using a Synthetic Rock Mass approach 
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下载免费PDF全文 Confinement effect on jointed rock pillars is numerically characterised in this research using a Synthetic Rock Mass (SRM) approach. The SRM is an integrated model incorporating a discrete fracture network within a Particle Flow Code 3D particle assembly. In this paper, the confinement effect on a 3D jointed pillar SRM model is investigated in a series of simulations, including biaxial compression tests and true and conventional triaxial compression tests. The numerical results suggest that the applied confining stresses generally result in higher pillar strengths and ductile post‐peak responses. More brittle post‐peak behaviour is simulated in the biaxial and true triaxial tests when the pillar is confined by a high stress in one lateral direction and by a zero/low stress in the other lateral direction. This phenomenon is attributed to significant lateral pillar dilation in the less confined direction. Detailed pillar failure modes are monitored in the uniaxial and triaxial tests. Axial splitting fractures and long shear zones cutting through the pillar are simulated when the pillar is able to dilate in the direction of least confinement. Localised shearing along joints and failed rock blocks is the dominant failure mode when the pillar dilation is resisted by the applied confining stresses. The pillar remains relatively intact with limited cracking in the pillar core in the highly confined triaxial tests. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
16.
本文基于三山岛金矿工程地质条件,针对设计所提出的采场和矿柱的尺寸,提出了分析矿柱稳定性的一种新的方法,并应用该方法分析了矿柱的稳定性;同时,提出了提高矿柱承载能力的一种有效途径。另外,还详细讨论了矿柱顶点的深度与长度之间存在的关系。 相似文献
17.
侧向支承压力分布、资源回收率以及煤柱和巷道的稳定性是大采高综放面区段煤柱宽度留设要兼顾的因素,为了确定大采高综放面区段煤柱宽度,以某矿8103面为工程背景,首先,采用理论计算和现场应力监测等方法确定大采高综放工作面倾向支承压力分布规律,得出应力降低区宽度约为8 m,原岩应力区为巷帮侧28 m外。其次,采用工程类比方法确定大采高综放工作面巷帮外侧煤体严重破裂区宽度约为4 m。最后,采用FLAC3D数值软件分析了下区段工作面回采时窄煤柱(6、8 m)和宽煤柱(28、30 m)的应力场、位移场及塑性区特征,获得不同煤柱宽度时巷道和煤柱力学特征。研究表明:当煤柱宽度6 m和8 m时,在采动支承压力下煤柱几乎无承载能力,且巷道变形量较大;当煤柱宽度28 m和30 m时,在采动支承压力下煤柱中央仍有一定的弹性核,煤柱保持稳定且巷道变形量较小。综合考虑资源回收、巷道稳定性、次生灾害控制等因素,确定大采高综放工作面区段煤柱宽度为28 m。 相似文献
18.
To understand and predict the in situ brittle rock mass damage process induced by a coupled thermo-mechanical loading, the knowledge of rock mass yielding strength, scaling relationship between laboratory and in situ and microstructure characterization is required. Difficulties have been recognized due to the seldom availability of in situ experiment and appropriate numerical methodologies. The Äspö Pillar Stability Experiment was used to monitor the evolution of rock mass damage in a pillar of rock separating two 1.75-m diameter vertical boreholes. The loading of the pillar was controlled using the in situ stresses, excavation geometry, and locally increasing the rock temperature. The induced loading resulted in a complex discontinuum process that involved fracture initiation, propagation, interaction and buckling, all dominated by a tensile mechanism. Tracking this damage process was carried out in two steps. Initially, a three-dimensional numerical model was used to generate the stresses from the excavation geometry and thermal loading. The plane strain stresses, at selected locations where detailed displacement monitoring was available, were then used to track the evolution of damage caused by these induced stresses. The grain-based discrete element modeling approach described in Lan et al. (2010), which captures the grain scale heterogeneity of the rock, was used to establish the extent of damage. Good agreement was found between the predicted and measured temperatures and displacements. The grain-based model provided new insights into the progressive failure process. 相似文献
19.
Monitoring the performance of rock reinforcement 总被引:5,自引:0,他引:5
A rock mechanics program has been developed and implemented in order to achieve a safe and economical room and pillar extraction of the shallow dipping orebodies at the McArthur River Mine in Australia. Three closely spaced tabular orebodies have been targeted for extraction over the life of the mine and due to economics the lowermost number 2 orebody is being mined first. This paper formulates the calculation of the 2 Orebody hangingwall spans and the appropriate rock reinforcement design for the long-term stability of the room and pillar excavations. The field trials suggested that a rock beam was formed within the hangingwall of the room and pillar operations, arresting any vertical movement of the roof. The results indicated that the weight of the beam is transferred to the pillars via an arching process and there is no need for deep-anchored reinforcement. 相似文献
20.
利用有限差分程序FLAC建立连续和并排的两类非均质矿柱模型,对矿柱在动力载荷循环作用下的破坏过程进行全时程动力分析。将加卸载响应比(LURR)理论引入矿柱动力稳定性分析中,以施加的动力载荷对矿柱作用的周期性变化作为加载量,以矿柱特征点的位移变化和破坏单元的弹性应变能的演化规律作为响应参数,建立矿柱的加卸载响应比模型,确定矿柱在动力载荷作用期间的加卸载响应比时间序列。计算结果表明,矿柱整体上处于稳定状态和趋于失稳时,其加卸载响应比Y值表现出不同的特征,通过对Y值的分析对矿柱的稳定状态进行评价,预测是否临近峰值承载能力,表明在矿柱动力破裂过程数值模拟分析中引入加卸载响应比是矿柱破坏力学行为研究的一种方便而有效的方法。 相似文献