深部软岩巷道围岩变形分析与控制

针对某深部软岩巷道支护困难问题,首先对围岩进行力学性能试验,然后利用有限元分析方法,在基于不同埋深软岩巷道围岩变形特征研究的基础上,从巷道开挖和围岩支护两方面对深部高地应力软岩巷道围岩变形与控制进行深入研究.结果表明:随软岩巷道埋深增大,巷道围岩变形呈线性增大趋势;在深部高地应力下掘进巷道时,全断面开挖法围岩变形最大,台阶法次之,CD法最小;支护时采用柔性与刚性联合支护,围岩变形最小.联合支护技术能充分释放软岩巷道围岩变形能,发挥围岩自承能力并与支护体系共同作用,可以有效控制深部软岩巷道围岩变形,从而保证深部软岩巷道围岩的稳定性.     

基于变形压力分析的有控卸压机理研究

为了确定卸压程度,降低卸压过程中围岩强度弱化对巷道稳定的不利作用,基于应变软化准则建立了变形压力的力学模型,依据变形压力的变化规律分析了有控卸压机理,并提出了"临界塑性区半径"作为有控卸压的判定准则.结合某软岩大巷的有控卸压支护实践,确定该巷道的"临界塑性区半径"为7.78 m,并将该结果应用于有控卸压支护参数的设计.工程应用表明,通过对卸压程度的合理控制,不但有效释放了围岩的变形能减小围岩对支护体的变形压力,并能降低围岩强度弱化对围岩稳定的不利作用,提高二次锚杆支护效果,保证了支护强度满足要求,使巷道处于长期稳定状态.     

对轴对称荷载作用圆巷围岩理想弹塑性分析解的讨论

对轴对称荷载作用圆巷围岩理想弹塑性分析解——Kastner解适用于软岩和小变形情况,若用于非软岩和大变形情况,从Kastner方程会导得：不论巷道围岩塑性变形多大,巷道周边切应力恒等于岩体峰值强度;围岩所承受的地应力可以随围岩塑性区半径增大而持续增大,随巷道周边位移增大而持续增大;此外,Kastner解中切应力分布曲线在围岩弹、塑性区交界处有尖峰向上的应力集中.采用符合岩石实际的弹性、非线性硬化和软化光滑连接的应力-应变关系得到的巷道围岩分析解,可以弥补以上三点不足,恰当地反映巷道临界深度和巷道围岩自承地应力极限问题;所绘出的切应力分布曲线在围岩弹、塑性区交界处光滑连接,因而有更广的适用性和精确性,对巷、隧道围岩大变形支护设计有参考作用.     

支护阻力对不同岩性围岩变形的控制作用

在理论分析和数值计算的基础上,研究了不同岩性条件下支护阻力对围岩变形的作用和机理。阐述了硬岩巷道中支护要是控制塑性区的范围,软岩道中支护阻力提供围压,影响周力岩体的软化笥,遏制围岩破碎区的发展,从而控制围岩的变形。结果表明,岩性质越差,支护阻力控制围岩变形的作用越大,巷道位移量与支护阻力呈负指数函数关系。     

深部大规模松软围岩巷道破坏分区理论分析

综合考虑巷道破坏特征及典型软岩应力应变曲线特征,对深部巷道松软围岩进行破坏分区,提出了适合破坏分区的四线段本构模型,建立了深部大规模松软围岩巷道应力分析的力学模型,推导了不同破坏分区应力解,得出了界定各破坏分区范围的表达式,结合具体工程验证了巷道破坏分区划分的正确性和合理性.研究表明:深部松软巷道围岩自巷道向外分别为塑性流动区、应变软化区、塑性硬化区和弹性区4个分区,各分区临界应力满足Mohr-Coulomb准则;围岩塑性区的范围随支护阻力、应变硬化系数、应变软化系数以及内摩擦角的增大而减小,随扩容系数的增大而增大;各分区范围的理论解能够有效指导支护设计,实现对深部大规模松软围岩巷道的长期稳定.     

深井软岩巷道预留刚隙柔层厚度的确定及应用

针对深井软岩巷道围岩变形、破坏的特点,提出了预留刚隙柔层的厚度就是巷道围岩出现松动破坏前的塑性区径向位移．采用Bonaitin-Thomson模型对分区的巷道围岩进行了力学分析,推导出黏弹性区、稳定塑性区的径向位移计算式,并讨论了影响预留刚隙柔层厚度的主要因素．结果表明：巷道围岩位移与时间有关,且随时间的增长而增加,并最终趋于一稳定值．预留刚隙柔层厚度随巷道半径和原岩应力的增大而加大,随一次支护强度的增加而减小,但受一次支护强度的影响较小．曲江矿运输大巷预留刚隙柔层37cm,使巷道围岩充分释放变形能的同时又不损害围岩自身的支撑能力,二次支护后,巷道围岩变形量较小．     

强膨胀软岩巷道变形特性及控制对策研究

为解决强膨胀软岩巷道支护问题,以红庆梁煤矿强膨胀软岩巷道支护工程为研究对象,通过理论分析和现场调研,分析了强膨胀软岩巷道变形特性.利用MIDAS/GTS建立强膨胀软岩巷道弹塑性数值仿真模型,分析了采用锚网喷架联合支护方案时巷道塑性区范围、应力分布、表面位移以及锚杆和U型钢可缩支架的受力特征.进行现场测试,得到了锚网喷架联合支护方案条件下巷道围岩变形规律.结果表明:采用锚网喷加U型钢可缩支架组成的联合支护体系将有效地提高支护结构整体刚度,增强围岩的自稳能力和自承能力.     

软岩巷道锚注支护结构蠕变分析

对锚注前软岩巷道围岩应力状态进行弹塑性分析,计算出锚注前围岩残余强度区半径;在此残余强度区内进行注浆,并将注浆区再细化为弹性区和塑性区,引入岩石蠕变的鲍尔丁-汤姆逊模型,建立了软岩巷道锚注支护结构的蠕变分析模型,采用塑性区岩体体积不变的假设,对锚注支护结构进行了黏弹性分析和黏塑性分析,推导出软岩巷道锚注支护结构应力及位移的蠕变公式.理论分析与相似模拟结果表明:软岩巷道锚注支护结构弹性区应力与时间无关,塑性区应力随时间而变化;弹性区、塑性区位移随时间的推移而不断增大,最后趋于一定值,且塑性区位移与半径成反比关系.     

深井软岩巷道底板卸压钢丝绳网锚注支护技术研究

针对平顶山天安煤业股份有限公司一矿深井软岩回风上山巷道工程地质条件和围岩变形特征,采用数值计算方法,研究了底板卸压槽卸压前后巷道围岩应力场、塑性区的变化规律,分析了底板卸压槽卸压机理,提出了钢丝绳网锚注支护技术,并进行了工业性试验。研究结果表明:(1)巷道底板开掘卸压槽卸压后,底板围岩垂直应力和水平应力的高应力区及其峰值应力均向底板深部转移。卸压后底板同一深度的围岩应力均小于卸压前的围岩应力;卸压后巷道顶底板和两帮围岩的塑性区范围均增大,底板卸压效果明显。(2)深井巷道围岩的破碎区和部分塑性区是支护的重点。回风上山巷道采取开挖底板卸压槽、钢丝绳网锚杆支护和围岩注浆加固等支护措施后,在围岩中形成了锚注体支护圈,提高了围岩的强度和自身承载能力。巷道围岩经历加速变形阶段、减速变形阶段和稳定变形阶段后,一直处于稳定变形状态。卸压槽+钢丝绳网锚注支护在回风上山巷道的支护试验取得成功,可为深井软岩巷道支护提供参考依据。     

深部开采软岩巷道耦合支护数值模拟研究

通过对深部开采软岩巷道的变形破坏机理的研究发现，巷道变形破坏主要是由于支护体力学特性与围岩力学特性在强度、刚度以及结构上出现不耦合所造成的；且变形首先从关键部位开始，进而导致整个支护系统的失稳．因此，要保证深部软岩巷道围岩的稳定性．必须实现支护体与围岩的耦合．数值模拟研究表明，当锚杆与围岩在刚度上实现耦合时，能最大限度地发挥锚杆对围岩的加固作用；当锚网与围岩在强度上实现耦合时，将会使围岩的应力场和位移场趋于均匀化；当锚索与围岩在结构上耦合时，可以充分利用深部围岩强度来实现对浅部围岩的支护．实践证明，软岩巷道耦合支护可以有效解决深部开采软岩巷道支护问题。     

Influence of dynamic pressure on deep underground soft rock roadway support and its application

Due to high ground stress and mining disturbance, the deformation and failure of deep soft rock roadway is serious, and invalidation of the anchor net-anchor cable supporting structure occurs. The failure characteristics of roadways revealed with the help of the ground pressure monitoring. Theoretical analysis was adopted to analyze the influence of mining disturbance on stress distribution in surrounding rock,and the change of stress was also calculated. Considering the change of stress in surrounding rock of bottom extraction roadway, the displacement, plastic zone and distribution law of principal stress difference under different support schemes were studied by means of FLAC3D. The supporting scheme of U-shaped steel was proposed for bottom extraction roadway that underwent mining disturbance. We carried out a similarity model test to verify the effect of support in dynamic pressure. Monitoring results demonstrated the change rules of deformation and stress of surrounding rock in different supporting schemes. The supporting scheme of U-shaped steel had an effective control on deformation of surrounding rock. The scheme was successfully applied in underground engineering practice, and achieved good technical and economic benefits.     

不同断面形式深埋巷道围岩破坏数值模拟分析

以Ⅲ级围岩为例,利用有限差分软件FLAC对不同埋深情况下不同断面形式的巷道进行数值模拟,分析矩形、直墙拱形和圆形断面巷道围岩应力应变、围岩塑性区随埋深的变化规律及特点。结果表明：拱形断面巷道的围岩变形、围岩塑性区最小,尤其是顶板下沉量较矩形和圆形断面巷道的要小得多;圆形断面巷道围岩水平向位移最小;矩形断面巷道围岩应力及变形随埋深增加幅度都要大于拱形和圆形断面巷道。     

Numerical simulation study of the failure evolution process and failure mode of surrounding rock in deep soft rock roadways

Based on the safety coefficient method,which assigns rock failure criteria to calculate the rock mass unit,the safety coefficient contour of surrounding rock is plotted to judge the distribution form of the fractured zone in the roadway.This will provide the basis numerical simulation to calculate the surrounding rock fractured zone in a roadway.Using the single factor and multi-factor orthogonal test method,the evolution law of roadway surrounding rock displacements,plastic zone and stress distribution under different conditions is studied.It reveals the roadway surrounding rock burst evolution process,and obtains five kinds of failure modes in deep soft rock roadway.Using the fuzzy mathematics clustering analysis method,the deep soft surrounding rock failure model in Zhujixi mine can be classified and patterns recognized.Compared to the identification results and the results detected by geological radar of surrounding rock loose circle,the reliability of the results of the pattern recognition is verified and lays the foundations for the support design of deep soft rock roadways.     

Deformation mechanism and excavation process of large span intersection within deep soft rock roadway

The FLAC3D software was used to simulate and analyze numerically the displacement, stress and plastic zone distribution characteristics of a large span intersection in a deep soft rock roadway after the surrounding rock was excavated. Our simulation results show that there are two kinds of dominating factors affecting roadway stability at points of intersection, one is the angle between horizontal stress and axial direction of the roadway and the other are the angles at the points of intersection. These results are based on a study we carried out as follows: first, we analyzed the failure mechanism of a large span intersection and then we built a mechanical model of a rock pillar at one of the points of intersection. At the end of this analysis, we obtained the failure characteristics of the critical parts on the large span intersection. Given these failure characteristics, we proposed a new supporting method, i.e., a Double-Bolt Control Technology (DBCT). By way of numerical simulation, DBCT can effectively control the deformation of the surrounding rock at the points of intersection in roadways.     

巷道围岩强度弱化规律及其应用

认为软岩巷道稳定性应采用动态支护的观点分析．用巷道周边位移表达的损伤因子来描述围岩阶段性变形特征及破坏过程,分析与之对应的围岩强度弱化规律,在此基础上提出了喷锚注分阶段加固技术,并对合理滞后注浆时间的确定进行了研究．最后,介绍了一个应用实例     

膨胀特性对软岩巷道围岩变形规律的影响研究

针对软岩巷道的特点，利用泥灰岩三轴试验结果，分析了膨胀特性对深井软岩巷道围岩稳定性的影响；利用最新的弹塑性理论研究成果。推导出了膨胀角与围岩变形的直接关系式；采用数值力学的研究方法，分析了软岩巷道周围体积膨胀与扩容现象．数值模拟结果表明：软岩巷道表面变形和巷道周边体积应变随膨胀角的变化均成非线性递增，膨胀角愈大，软岩巷道的围岩条件愈差，巷道周边围压越大，所需要的支护力就越大。这些重要结论为深井条件下软岩巷道工程提供参考．     

膨胀特性对软岩巷道围岩变形规律的影响研究

针对软岩巷道的特点,利用泥灰岩三轴试验结果,分析了膨胀特性对深井软岩巷道围岩稳定性的影响;利用最新的弹塑性理论研究成果,推导出了膨胀角与围岩变形的直接关系式;采用数值力学的研究方法,分析了软岩巷道周围体积膨胀与扩容现象.数值模拟结果表明:软岩巷道表面变形和巷道周边体积应变随膨胀角的变化均成非线性递增,膨胀角愈大,软岩巷道的围岩条件愈差,巷道周边围压越大,所需要的支护力就越大,这些重要结论为深井条件下软岩巷道工程提供参考.     

跨采软岩巷道锚注加固技术的实验研究

针对鲍店煤化北翼采区受放顶煤工作面跨采影响的下部主要岩石集中巷,对巷道采用不同支护形式的支护效果进行了相似模拟试验研究,得到了受跨采影响的软岩巷道在不同支护条件下的变形特征,为同类软岩巷道支护提供了科学的依据。     

综放全煤平巷锚杆支护模拟试验研究

根据“巷道围岩松动圈支护理论”,以南屯矿３上 煤层综放工作面全煤平巷围岩条件为基础,对不同动压系数、侧压系数、锚杆支护参数条件下,锚杆支护巷道围岩应力分布、围岩变形及巷道破坏规律进行了模拟试验．试验证实,矩形煤巷顶板中存在一个卸压区,巷道两帮和角部区域围岩破坏严重,是支护的重点部位．锚网支护能有效控制采动压力影响下全煤巷道围岩的稳定性．试验得到的结论对于综放全煤巷道锚网支护设计和应用具有指导意义．     

Non-destructive testing and pre-warning analysis on the quality of bolt support in deep roadways of mining districts

The bolt support quality of coal roadways is one of the important factors for the efficiency and security of coal production. By means of a self-developed technique and equipment of random non-destructive testing, non-destructive detection and pre-warning analysis on the quality of bolt support in deep roadways of mining districts were performed in a number of mining areas. The measured data were obtained in the detection instances of abnormal in-situ stress and support invalidation etc. The corresponding relation between axial bolt load variation and roadway surrounding rock deformation and stability was summarized in different mining service stages. Pre-warning technology of roadway surrounding rock stability is proposed based on the detection of axial bolt load. Meanwhile, pre-warning indicators of axial bolt load in different mining service stages are offered and some successful pre-warning cases are also illustrated.The research results show that the change rules of axial bolt load in different mining service stages are quite similar in different mining areas. The change of axial bolt load is in accord with the adjustment of surrounding rock stress, which can consequently reflect the deformation and stability state of roadway surrounding rock. Through the detection of axial bolt load in different sections of roadways, the status of real-time bolt support quality can be reflected; meanwhile, the rationality of bolt support design can be evaluated which provides reference for bolting parameters optimization.