上覆硬厚岩层破断运动及断顶控制

硬厚覆岩的破断与结构将发生显著的变化。针对汝箕沟煤矿二2煤层上覆厚层石英砂岩条件,采用现场实测、数值模拟、理论分析及现场试验等方法,研究了硬厚覆岩裂隙发育特征、破断运动、矿压显现特征及断顶控制技术,为硬厚覆岩工作面灾害防治提供了依据。研究表明,硬厚石英砂岩的微观结构致密完整,呈现大面积悬空、大步距破断运动,引起强烈的支架动载,甚至导致工作面风流逆转、沟通上部采空区隐形火区;硬厚岩层破断运移后产生明显的离层空间,并在开切眼上部和工作面上部及采空区中部形成覆岩主裂隙带,且发育高度大于经验计算数值,甚至与上方采空区沟通诱发灾害;实施开切眼深孔断顶爆破及降低工作面采高,有效缩短了硬厚岩层的初次破断步距,降低了支架动载及主裂隙带高度。     

彬长矿区“井上下”立体防治冲击地压新模式

随着煤矿开采强度的不断增大,矿井逐渐向深部转移,冲击地压灾害日益严峻。而深部冲击地压矿井往往存在一层或多层坚硬厚岩层,这些坚硬顶板厚度较大,整体性强,突然断裂时会释放大量弹性能,易引发冲击地压事故,严重制约矿井安全生产。以陕西彬长矿区孟村矿为例,针对矿区内煤层埋藏深、普遍存在多种坚硬厚岩层的特殊情况,提出针对性治理措施：对顶板上方0～80 m范围内厚度超过10 m的坚硬厚岩层进行破断、弱化处理,对煤层上方0～30 m范围的低位岩层采取顶板深孔爆破预裂措施,对煤层上方30～60 m范围内的中位坚硬岩层采取顶板定向长钻孔水力压裂措施,对煤层60 m以上高位坚硬岩层采取地面水平井分段压裂措施;使高、中、低位顶板产生的裂缝在垂向上实现贯穿,将顶板“切割”成相对规则的“块状”结构,使上覆岩层应力由“硬传递”转化为“软传递”;并结合煤层大直径孔卸压、煤层爆破等煤层卸压措施,形成了区域与局部相结合、煤层与岩层全覆盖的“井上下”立体防治模式。工程实践证明：采用“井上下”立体防治模式后,工作面103 J以上微震事件降低88%,周期来压强度降低23%,来压持续时间缩短61%,防冲效果良好。该技术模式的成功...     

深部采掘扰动区线性切顶防冲护巷技术

采掘扰动是诱发冲击地压灾害的重要因素,深部采掘扰动区域则受冲击与巷道变形的双重威胁,针对该技术难题,本文研究了线性密集切顶防冲护巷技术。基于关键层理论分析了倾斜煤层关键层倾向破断结构特点,表明关键块B的空间状态是控制正在开采的工作面与迎采巷道矿压显现的关键,给出了采掘扰动工况下的最佳关键块断裂线位置。基于COMSOL模拟研究了不同装药直径下的应力峰值分布规律,结果表明:爆破后应力以指数函数形式快速衰减,给出了不同装药直径下应力峰值分布的拟合公式;致裂半径与装药直径呈幂函数的正相关关系;以顶板岩石抗拉强度为指标值,确定了爆破孔直径对应的最优间距。现场设计实施了不同技术参数的切顶方案,结果表明,相比于传统的深孔爆破,线性密集切顶两钻孔之间能够形成贯通裂隙,从而控制关键层的破断方式,因此钻孔间距是影响防冲与护巷效果的关键参数。通过巷道围岩观测与微震监测,表明线性密集切顶技术能够有效减弱迎采巷道的围岩变形,同时降低正在开采的工作面矿压显现与冲击危险性,现场实践验证了理论与模拟结果,可为类似条件工程提供借鉴。     

晋城矿区厚层脆韧性石灰岩顶板变形与控制特性研究

晋城矿区15#煤直接顶K2石灰岩厚8～12 m,结构致密坚硬,为坚硬难垮落顶板。针对厚层石灰岩顶板可能面临的大面积断裂和垮落,从而导致冲击地压等问题,通过岩石力学性质试验获得相关岩层力学参数,并运用关键层理论、数值模拟和相似材料模型试验,研究了厚层脆韧性石灰岩顶板的变形与垮落特性,得到了顶板初次来压步距20～25 m和周期来压步距10～15 m及垮落规律,并提出了顶板控制的技术途径,即初期中深孔爆破结合顶板关键层缓慢下沉综合控制技术。实践表明,厚层石灰岩顶板的垮落形态和垮落步距与理论和试验研究结果基本一致。该项成果为晋城矿区厚层脆韧性石灰岩顶板控制提供了有效途径。     

顶板诱导崩落爆破效果的全景探测与评价

基于连续采矿的顶板诱导崩落技术,采用预裂爆破控制裂隙发展区间,强制崩顶爆破诱导顶板围岩裂隙发育、扩展,从而诱导顶板致裂失稳的可控崩落。然而在地下采空区顶板诱导致裂失稳崩落处理采空区过程中,预裂与崩顶爆破效果具有极大的隐蔽性,难以进行直观可视的评价。采用钻孔摄像系统,利用前视与全景可视技术,对顶板诱导爆破前钻孔形态和爆破的效果进行了探测,特别在爆破后的全景钻孔摄像,数字化描述了钻孔的裂隙特征,并通过钻孔摄像的图片分析评价了顶板诱导崩落爆破效果。全景探测的结果表明：（1）预裂爆破在顶板岩体中形成了清晰可见宽为20～40 mm的预裂缝,炮孔底部存在半个孔壁的预裂特征。（2）顶板围岩中产生了大量的次生诱导微裂隙带,裂隙交错呈“X”型,并且原生裂隙得到了扩展。（3）顶板诱导爆破实施后爆堆形状良好,大量裂隙发育以及碎裂岩体结构的形成有利于顶板的诱导可控崩落。     

Impact of excavation technique on strength of oil shale pillars

Summary The load carrying capacity of oil shale pillars excavated by conventional blasting can be increased significantly by presplit blasting and mechanical mining. Comparisons ofin situ vertical stresses and fractures obtained from overcoring horizontal holes in the Colony Mine, Piceance Creek Basin, Colorado indicate that conventional blasting causes a strength loss in a zone of damage approximately 3 m (10 ft) thick. Presplit blasting reduces damage significantly, and increases the load carrying capacity in the 3 m (10 ft) thick zone by 5.93 MPa (860 psi). Mechanical mining causes little or no rock damage, and an increase of 9.83 MPa (1425 psi) in strength in the same 3 m (10 ft) thick zone. Pillar design using presplit blasting and mechanical mining techniques can increase the extraction ratio by at least 3% and 5%, respectively, as compared to conventional blasting. It is speculated that comparable increases in extraction should also occur due to increases in span dimensions.     

Relationship model for the drilling parameters from a digital drilling rig versus the rock mechanical parameters and its application

Measuring rock mechanical parameters is an essential step for support design in an underground project. To quickly obtain the surrounding rock mechanical parameters at a construction site in real time using a digital drilling rig, a quantitative relationship between the drilling parameters and rock mechanical parameters should be defined. In this paper, based on the fracture characteristics of rock cutting, a relationship model for the drilling parameters of the digital drilling rig versus the rock mechanical parameters (DP-RMP model) is created. Based on the multi-function rock drilling test system developed by the authors, rock drilling tests for different drilling parameters and theoretical results are compared and analysed to prove the validity and accuracy of the DP-RMP model. Additionally, the influence laws of the cohesion and internal friction angle on the rock cutting drilling torque are investigated. Drilling parameters from the digital drilling rig-based rock mechanical parameter inversion method is proposed; the feasibility of this method is verified by rock drilling test results. The study provides a theoretical basis for quickly obtaining the rock mechanical parameters using drilling parameters on site in real time.     

柴家沟钼矿复杂地层岩心钻探技术

柴家沟钼矿地层破碎、裂隙发育、蚀变多样、涌水、完整岩石坚硬,而且地质设计要求大部分为斜孔,钻探施工中遇钻孔漏水、坍塌掉块、进尺缓慢、跑斜严重等技术难题。从钻孔结构、冲洗液配置、护壁堵漏、硬岩钻进、涌水地层加重泥浆的使用、立轴式钻机斜孔施工注意事项等方面总结了钻探施工经验。     

A New Blastability Index for Hard Roof Management in Blasting Gallery Method

The presence of hard and massive sandstone above the coal seam in underground coal mines often leads to delay in caving of overlying rock beds thereby causing excessive load on supports and posing danger to underground workings. The problem is more prominent in blasting gallery (BG) as well as longwall mining methods in Indian coal mines. Induced caving by blasting is a promising means for hard roof management in underground coal mines. Based on extensive studies and data collected from different mines in India, a Blastability Index (BI) has been developed which can be used for the classification of roof according to the degree of ease in caving by induced blasting. Different charge factors have also been suggested based on the Blastability Index. Due to wide change in the method of extractions, ??Cavability Index?? for longwall panel was found ineffective in case of BG method of working as well as bord and pillar working. For this reason, this proposed Blastability Index would be of immense help for caving of hard roof by induced blasting.     

含卸压孔硬岩应力松弛特性试验研究

针对非完整硬岩应力松弛特性研究的不足,开展了含卸压孔的具有岩爆倾向性的辉长岩试样峰前加载、松弛和再加载、再松弛模式的应力松弛试验,得出了其峰前应力松弛特性、松弛模型和超声波变化规律,揭示了应力松弛过程的卸压孔作用机制。结果表明：含卸压孔硬岩应力松弛过程经历了迅速衰减、逐渐衰减和稳定3个演化阶段;随峰前加载载荷增加,其应力松弛度总体上呈现增加,能量耗散量增加,用于硬岩损伤破裂演化的能量比例增加;通过波速、波幅和波形变化对比分析可以反映含卸压孔硬岩应力松弛过程的变形损伤破裂演化进程;Burgers模型能较好地反映含卸压孔硬岩的应力松弛特性。经与完整辉长岩试样应力松弛试验对比分析,表明同等情况下含卸压孔硬岩的应力松弛度更大,松弛过程能量耗散量更多,耗散速度也更快。该研究结果对硬岩、含卸压孔硬岩长期稳定性分析、预测及岩爆解危具有很好的指导和借鉴意义。     

基于ANSYS/LS-DYNA的岩石爆破结构数值模拟分析

等离子爆破技术是一种新型爆破技术,其爆破孔的设计对整个爆破效果及爆破效率起着决定性的作用。本文基于ANSYS/LS-DYNA建立了爆破孔的有限元模型,并对爆炸荷载作用下掏槽孔孔壁压力及其破碎区进行了数值模拟。研究结果表明,爆破时畸变能的变化自始至终都基本呈椭圆形,孔径越小,积累的能量越大,对岩体破坏越大;孔深长度越短,能量积聚空间越小,爆破对岩体造成的破坏越大;孔深长度的改变对下部岩体影响较小,对中部岩体影响较大。此外由于爆炸实验多为破坏性实验,很难进行原型试验,因此使用数值模拟方法研究爆破孔的结构是可行的,可以作为实际工程的参考。     

煤巷复合顶板结构对其稳定性影响试验

煤层巷道复合顶板结构较为复杂,其自身稳定性与岩性、岩层厚度、层数、岩层位置及层间黏结力等因素有关。基于简化的复合顶板组合梁结构力学理论,建立了简化的组合梁力学测试模型,通过不同试验分析复合顶板结构特征对其稳定性的影响,其目的是为复合顶板稳定性分类及控制提供科学依据。研究结果表明:煤巷复合顶板厚度不变时,其自身稳定性随岩层强度提高、硬岩层厚度增加、硬厚岩层到煤层距离的减小及层间黏结力的增大而提高,随分层数的增多而降低,当层数达到4层及以上时,顶板稳定性受其层数变化的影响变小。各因素的影响程度由大到小依次:岩性 > 岩层厚度 > 层数 > 岩层位置 > 层间黏结力;强度低、厚度小的软弱薄夹层较其他岩层更易产生应力集中,且破坏早于其他岩层。      

基于小波能量的爆破震动巷道围岩稳定性判据

目前爆破震动荷载作用下地下围岩稳定性判别主要依靠单一强度因子的独立阈值稳定性判据,这类判据多为定性分析,没有同时考虑爆破震动三要素的综合作用效果,且未建立稳定性判据与巷道围岩破坏程度之间的定量关系,在实际工程应用中存在一定的缺陷和不足。通过建立爆破荷载作用下的不同类别巷道围岩有限元模型,提取巷道围岩的响应信号,基于小波变换理论建立时间能量密度函数分析巷道围岩响应信号的时、频域特征,进而将时间能量密度曲线与时间轴围成的面积TEDI作为评估爆破震动效应的判别指标,建立了TEDI与巷道围岩损伤程度的定量关系,为进一步完善基于小波能量理论的巷道围岩损伤预警体系奠定基础。     

岩石在动载作用下的破坏与强度

研究岩石的动载性能,在凿岩爆破上有重要意义。分段式霍布金生杆已应用于研究岩石对波动载荷的效应。作者使用改型的霍布金生杆法对岩石试件在动载下的破坏强度作了试验研究。冲击试验台配合微处理机作高速数据显示与处理,借助应力波在弹性杆中的一维理论对数据进行解释。测定了多种岩石静载与动载的强度,并对岩石试件尺寸及加载速率的影响也作了试验。     

坚硬顶板超前区域治理技术在神东布尔台煤矿的应用

坚硬顶板是岩层控制的一大难题,高位坚硬岩层的破断失稳经常会诱发强矿压灾害,严重威胁矿井的安全生产,坚硬顶板的治理是煤矿安全生产的重大难题之一。针对神东矿区布尔台煤矿煤层顶板厚度大、硬度高、垮落难等问题,分析定向长钻孔分段水力压裂的压裂机理和技术优势,基于关键层理论确定了钻孔布置层位,采用拟三维裂缝模型对压裂注入时间和注入流速对裂缝扩展的影响进行分析计算,确定布尔台煤矿42108工作面顶板压裂钻孔布置方式,沿工作面倾向方向平行布孔3个,裂缝半长41 m,压裂控制区域覆盖了整个工作面。实践表明:42108工作面在实施了坚硬顶板分段水力压裂弱化后,工作面正常支架循环末阻力同比下降3.33%;周期来压期间,支架循环末阻力同比下降6.81%;动载系数平均降低了10.88%;强矿压显现减弱,保证工作面安全回采。      

空孔形状对岩石定向断裂爆破影响规律的研究

利用新型数字激光动态焦散线试验系统,采用有机玻璃板试件进行模型试验,研究了含预制不同形状空孔对岩石定向断裂控制爆破的影响规律。试验结果表明：在定向断裂控制爆破中,设置菱形空孔更有利于实现精细化定向断裂控制爆破,可有效保证巷道周边眼爆破的成型效果;对比含3种不同形状空孔试件爆生主裂纹扩展速度可知,含菱形空孔的扩展速度最大,含圆形空孔的次之,含带刻槽圆形空孔的最低;含圆形空孔试件爆生主裂纹端部动态应力强度因子总体比含菱形和切槽圆形空孔试件爆生主裂纹端部动态应力强度因子大;主裂纹扩展中后期阶段,含菱形空孔试件爆生主裂纹端部动态应力强度因子相对较小。     

唐口煤矿3上煤层冲击地压形成机制及防治措施

通过对唐口煤矿地应力、3上煤层及顶板岩层冲击地压测试结果分析,认为3上煤层属强冲击倾向性煤层,3上煤层顶板属弱冲击倾向性岩层;在采深1000m条件下,随着地应力的增大,煤、岩层的冲击倾向性将会增大。因3上煤层为易碎煤,厚度较大,顶板弹性能易突然全部释放,形成冲击地压;3上煤顶板主要为中砂岩、细砂岩及泥岩,质地坚硬,在煤层开采过程中,煤壁附近出易现高应力集中带,在顶板中聚集的弹性能在自重力和采掘干扰下会突然释放,形成冲击地压。在生产过程中采取钻屑法、沿采煤工作面轨道顺槽安装顶板离层报警系统、合理开拓避免应力集中和叠加、对煤层进行注水,降低煤体弹性和强度、提高支护结构的承载能力等一系列措施,较好地预防了冲击地压的发生。     

Investigation of Instability and Blasting Caving Technology of Composite Support Structure in the Goaf of Gypsum Mine

According to the structure form of room and pillar goaf in gypsum mine, the mechanical model of pillar roof composite supporting structure was established in this research. Based on the cusp catastrophe theory and energy dissipation theory, the energy dissipation relationship of the support structure was analyzed, and a new instability criterion of the support system was derived by introducing the control parameters α and β. On this basis, the study of blasting caving was carried out. The influence of row spacing and hole depth on blasting caving was analyzed using ANSYS/LS DYNA software. The blasting influence range, stress wave attenuation and vibration velocity attenuation indices are obtained, and the blasting parameters such as the optimal distance and depth of blast holes between pillars and roof were optimized. Based on the results of theoretical analysis and numerical, combined with the engineering geological conditions of Dahan gypsum mine, the practical study of blasting caving was carried out. The caving scheme and caving sequence was determined, then the blasting caving effect was analyzed. The caving effect was found to be good, and the applicability of the theoretical model is verified.

     

Sound level produced during rock drilling vis-à-vis rock properties

The process of drilling, in general, always produces sound. Though sound is used as a diagnostic tool in mechanical industry, its application in predicting rock property is not much explored. In this study, an attempt has been made to estimate rock properties such as uniaxial compressive strength, Schmidt rebound number and Young's modulus using sound level produced during rotary drilling. For this purpose, a computer numerical controlled vertical milling centre was used for drilling holes with drill bit diameters ranging from 6 to 20 mm with a shank length of 40 mm. Fourteen different rock types were tested. The study was carried out to develop the empirical relations using multiple regression analysis between sound level produced during drilling and rock properties considering the effects of drill bit diameter, drill bit speed and drill bit penetration rate. The F-test was used to check the validity of the developed models. The measured rock property values and the values calculated from the developed regression model are fairly close, indicating that the developed models could be efficiently used with acceptable accuracy in prediction of rock properties.     

坚硬顶板强制放顶断裂力学模型研究

为了保证坚硬顶板工作面的安全高效生产,根据坚硬顶板初采期间的岩层结构特点,基于断裂力学理论,建立了中部拉槽强制放顶断裂力学模型,推导了基本顶初次破断距的表达式,分析了岩层断裂韧度、裂缝长度等参数对初次破断距的影响规律。研究结果表明:基本顶的初次破断距随断裂韧度的增大而增加,随裂缝长度和基本顶上覆荷载的增大而减小;在基本顶断裂韧度或上覆荷载一定的条件下,人工裂缝长度比达到0.6以后,基本顶初次破断距保持不变。研究结果可为类似工程的设计和施工提供依据。