Determination of minimum overburden depth for underwater shield tunnel in sands:Comparison between circular and rectangular tunnels

With the development of global urbanization,the utilization of underground space is more critical and attractive for civil purposes.Various shapes of shield tunnels have been gradually proposed to cope with different geological conditions and service purposes of underground structures.Generally,reducing the burial depth of shield tunnel is conducive to construction and cost saving.However,extremely small overburden depth cannot provide sufficient uplift resistance to maintain the stability and serviceability of the tunnel.To this end,this paper firstly reviewed the status of deriving the minimum sand over-burden depth of circular shield tunnel using mechanical equilibrium(ME)method.It revealed that the estimated depth is rather conservative.Then,the uplift resistance mechanism of both circular and rectangular tunnels was deduced theoretically and verified with the model tests.The theoretical uplift resistance is consistent with the experimental values,indicating the feasibility of the proposed equations.Furthermore,the determination of the minimum soil overburden depth of rectangular shield tunnel under various working conditions was presented through integrated ME method,which can provide more reasonable estimations of suggested tunnel burial depth for practical construction.Additionally,optimizations were made for calculating the uplift resistance,and the soil thickness providing uplift resistance is suggested to be adjusted according to the testing results.The results can provide reference for the design and construction of various shapes of shield tunnels in urban underground space exploitation.

Aseismic performances of constrained damping lining structures made of rubber-sand-concrete

Flexible damping technology considering aseismic materials and aseismic structures seems be a good solution for engineering structures.In this study,a constrained damping structure for underground tunnel lining,using a rubber-sand-concrete(RSC)as the aseismic material,is proposed.The aseismic performances of constrained damping structure were investigated by a series of hammer impact tests.The damping layer thickness and shape effects on the aseismic performance such as effective duration and acceleration amplitude of time-domain analysis,composite loss factor and damping ratio of the transfer function analysis,and total vibration level of octave spectrum analysis were discussed.The hammer impact tests revealed that the relationship between the aseismic performance and damping layer thickness was not linear,and that the hollow damping layer had a better aseismic performance than the flat damping layer one.The aseismic performances of constrained damping structure under different seismicity magnitudes and geological conditions were investigated.The effects of the peak ground acceleration(PGA)and tunnel overburden depth on the aseismic performances such as the maximum principal stress and equivalent plastic strain(PEEQ)were discussed.The numerical results show the constrained damping structure proposed in this paper has a good aseismic performance,with PGA in the range(0.2-1.2)g and tunnel overburden depth in the range of 0-300 m.

大柳塔52606工作面沿空留巷围岩走向非均匀破坏机制研究

大柳塔煤矿沿空留巷工作面混凝土墙及煤柱受力变形与煤层埋深呈现明显相关性,为获取埋深影响留巷侧围岩非均匀破坏的机制,以52606工作面开采为背景,采用相似材料模拟实验和理论分析的方法对岩层垮落结构及应力分布规律进行研究。结果表明,埋深增加,对应的周期来压步由10 m逐渐增加至约20 m。支承压力应力升高区范围增加,应力集中系数增加,应力峰值位置距离工作面距离减少。工作面顶板裂隙密度增加,不利于在埋深大区域形成支撑结构,不利于留巷稳定。埋深较大的终采线侧垮落角为34°,埋深较小的开切眼侧垮落角为43°。垮落角减小悬臂结构长度增加,破碎围岩支撑力减弱导致埋深大区域巷道发生大变形。

反滤压重及埋深对深厚覆盖层允许坡降影响研究

反滤压重及埋深均会影响土体允许坡降,但目前尚无法量化这些影响。量化反滤压重及埋深的影响是合理确定允许坡降,科学评价坝基渗流安全的关键。采用轴向应力模拟反滤压重及埋深的作用,针对泸定水电站下游坝基(3)-1层,开展了(3)-1层级配包络线在不同轴向应力条件下的渗透试验,量化了反滤压重及埋深对(3)-1层临界坡降的影响。结果表明:随着轴向应力的增大,(3)-1层上包线和平均线土体的临界坡降呈线性增加趋势,而下包线土体的临界坡降受轴向应力影响很小。基于试验结果,量化了反滤压重和埋深对(3)-1层允许坡降的贡献,建立了随轴向应力变化的(3)-1层土体允许坡降公式,提出了可考虑反滤压重措施及土体埋深影响的允许坡降建议取值方法,该方法可供后续类似工程借鉴采用。

Structure and deformation measurements of shallow overburden during top coal caving longwall mining

Mining induced pressures are strong and overburden failure areas are large in top coal caving longwall mining, which constrains high production and safety mining. By employing the combination of the full view borehole photography technique and the seismic CT scanner technique, the deformation and failure of overlying strata of fully mechanized caving face in shallow coal seam were studied and the failure development of overburden was determined. Results show that the full view borehole photography can reveal the characteristics of strata, and the seismic CT scanner can reflect the characteristics of strata between the boreholes. The combined measurement technique can effectively determine the height of fractured and caved zones. The top end of the caved zone in Yangwangou coal mine employing the top coal caving longwall mining was at the depth of 171 m and fractured zone was at the depth of 106-110 m. The results provide a theoretic foundation for controlling the overburden strata in the shallow buried top coal caving panel.

深厚覆盖层上土工膜防渗堆石坝渗流场影响因素分析

随着筑坝技术的发展,深厚覆盖层逐渐成为土石坝常选坝基方案,其中坝基渗流控制是需要解决的关键问题之一。采用有限元法,对深厚覆盖层上土工膜防渗堆石坝渗流场进行计算分析,重点研究悬挂式防渗墙深度、覆盖层深度和渗透性对坝基渗流特性的影响。结果表明:防渗墙深度、覆盖层深度和渗透性均显著影响坝基渗流特性;防渗墙深度变化或覆盖层深度变化下,大坝渗流量和相对防渗深度关系曲线基本重合,均呈现先线性缓慢减小后急剧下降的特点,防渗墙和覆盖层深度共同决定坝基渗控效果;采用悬挂式防渗设计时,为保证大坝渗流量控制率达到75%,相对防渗深度与覆盖层渗透系数之间呈强对数线性关系。研究成果可用于待建类似工程防渗墙深度的初拟或已建类似工程坝基覆盖层防渗效果的评价。

煤峪口矿地表移动变形量计算及规律分析

为充分掌握煤峪口矿地表移动变形量和变形规律,通过实地考察调研掌握其切实存在的地表变形现象,通过数值模拟得出初采最大垂直和水平位移为568 mm和183 mm,复采最大垂直和水平位移为2660 mm和740 mm,计算结果低于基于经验公式所得结论,得出煤柱在一定程度上减缓了地表的移动变形,并且煤层埋藏深度对地表变形的影响大于煤层厚度。

不同埋深下暗挖隧道施工的地层响应

采用实测统计和数值模拟方法,对北京地铁区间暗挖隧道开挖后不同埋深下的地层应力、塑性区分布及地层变形3个方面进行分析研究.结果表明:1)隧道开挖后洞周切向应力升高区随埋深增大而向围岩深部转移,埋深达到20m后,应力升高区的转移减缓;2)随埋深的增大,洞周塑性区与地表塑性区由完全贯通变为逐渐分离,地表塑性区的范围逐渐减小,但洞周塑性区的范围变化不大,而塑性区以外的弹性区范围增大;3)埋深达到12 m时,地中沉降曲线出现拐点,拐点与洞顶的距离随埋深的增大而增大,埋深达到20m后,曲线拐点基本稳定在洞顶上方10 m处;4)计算结果与实测统计规律基本一致,最大地表沉降值随着埋深的增大而减小,但减小的幅度随着埋深的增大而逐渐减小.

不同埋深下地铁隧道围岩破坏的试验研究

文章采用模型试验对北京粘性地层中不同埋深条件下地铁区间隧道的围岩变形和破坏规律进行了研究。相似模型试验分析结果表明,随着埋深的增加,相应增大了地层变形传递到地表的距离,同时地层中拱结构的存在也在一定程度上阻隔了地层变形的发展,进而降低了地表沉降值;不同埋深下地铁隧道围岩的破坏过程是类似的,首先是起拱处的围岩发生剪切滑移破坏,然后是顶部围岩发生拉剪破坏。不同埋深下围岩破坏的特点是:埋深小于2.5D(D为隧道等效直径)时,隧道围岩塌落破坏可发展到地表,塌落形式类似椎体;埋深大于或等于2.5D时,隧道围岩的破坏程度相对较小,围岩能够形成拱结构,坍塌破坏未发展到地表,塌落形式类似拱形。在此基础上提出的相应控制措施是:对于埋深小于2.5D的隧道,建议在隧道起拱处双排或三排布置锁脚锚管,并且预先密排或双排布置顶部小导管注浆加固地层;对于埋深大于或等于2.5D的隧道,可采用单排布置锁脚锚管的辅助支护和均匀布置顶部小导管的预支护措施。

偏压隧道偏压应力比特征分析

偏压隧道是公路和铁路建设中经常遇到的隧道类型,由于其受力的不对称性及设计、施工的特殊性,一直是隧道施工研究的热点。以往针对偏压隧道的研究主要集中在偏压隧道的成因、围岩稳定性、应力应变分布规律及施工影响等方面,但缺少对偏压隧道偏压应力比以及公路、铁路设计规范给出条件的偏压应力比的研究,而且公路和铁路设计规范中给出的偏压隧道对应的坡面倾角和隧道埋置深度缺少相关理论来支撑。本文针对铁路双线隧道设计规范给出的临界坡度和覆盖层厚度条件,采用数值模拟的方法,求出地形偏压隧道对称位置的应力比值,定量分析了规范给定条件下偏压应力比的特征值。结果表明:在保证安全的前提下,当Ⅲ级围岩拱肩应力比大于7.45、Ⅳ(土)级围岩拱肩应力比大于2.23、Ⅳ(石)级围岩拱肩应力比大于3.34、Ⅴ级围岩拱肩处应力比大于1.06时,可将隧道考虑成偏压隧道,从而为定量判别偏压隧道提供理论依据。

不同赋存深度新疆天湖花岗岩的动态拉伸力学特性研究

基于SHPB装置,进行了高放废物地质处置新疆预选区天湖地段花岗岩的动态拉伸力学特性试验,试验所用岩芯均取自于同一钻孔的不同深度处(深度范围为350 m^580 m)。测试结果显示:该花岗岩在加载率处于105 MPa/s这一中高等加载率下,其动态拉伸强度一般在15 MPa^35 MPa。并且随着加载率的提高,无论哪一赋存深度的花岗岩样品,其动态拉伸强度均随之增大,这说明了花岗岩的率相关加载效应特性。此外,对该花岗岩冲击破坏后的形态进行了观测,发现其加载破坏模式呈现拉伸破坏,与静态拉伸加载下的劈裂破坏特征基本一致。进一步分析试验数据,认识到花岗岩样品其动态拉伸强度之所以随着深度会产生增大或者减小的现象,是因为深部岩石其自身的物理特性已经发生了变化,从而造成了岩石力学特性随之发生改变。其密度、孔隙度等均不相同,正是这些物性的差异导致了其力学特性的差别。该研究的试验数据与理论可支撑于深部地下工程的爆破开挖及高放废物的深地质处置。

不同埋深的山岭隧道洞身段地震动力响应振动台试验研究

为了解埋深在地震过程中对山岭隧道洞身段动力响应的影响,针对山岭隧道洞身段开展振动台模型试验研究。试验以Ⅴ级围岩为研究对象,按结构埋深25m、175m、275m分为3组工况,分析不同埋深下山岭隧道结构的地震动力响应特征。模型试验结果表明:1围岩内加速度放大系数自振动台台面至围岩顶部不断增大,埋深的增大使这一放大趋势更加明显;2洞身段结构的加速度呈现放大效应,不同埋深均符合这一特性,且深埋会增大结构的这种放大效应;同时,深埋使得模型整体的自振频率增大;3在振动过程中,结构横断面承受循环的拉压荷载作用,拱肩和拱脚处出现较大的附加弯矩和附加位移,导致结构拱肩和拱脚破坏明显,不同的埋深不会改变结构这种受力特性,而且深埋使得结构附加弯矩减小;4在地震作用下,山岭隧道浅埋比深埋更不利,且深埋工况之间差别不大。

深部岩石力学参数随赋存深度变化规律研究

为了研究煤系地层中赋存深度的变化对深部岩石力学参数的影响,以50m为一个岩层深度范围,通过对淮南矿区潘集背斜上某矿赋存深度在800~1 300m深度范围的同一层泥岩和砂岩样本的单轴抗压强度、弹性模量、泊松比、黏聚力、内摩擦角、抗拉强度等岩石基本物理力学参数的试验研究,采用SPSS19.0对试验结果分别进行统计分析,结果发现,泥岩和砂岩的泊松比均随深度的增加而减小,而这两种岩石其余5个力学参数则随赋存深度而增加,且深度的变化对砂岩力学参数变化影响更大;深度在1 000m附近时,泥岩和砂岩的力学参数都会出现显著变化。

强风化带回采巷道临界跨度与覆岩厚度的关系

巷道上方岩体能否形成某种形式的稳定承载结构,是决定巷道稳定状况及其合理支护形式与参数的主要因素之一。强风化带中的回采巷道,围岩裂隙增多、强度降低,巷道的最大尺寸将受到限制。在保证覆岩成拱的条件下,龙东矿风化带内回采巷道的临界跨度同上覆破碎岩层的厚度成正比,而与巷道的高度成反比,巷道设计、施工过程中必须综合考虑三者之间的合理匹配关系。

瀑布沟堆石坝防渗体自适应有限元分析

在深覆盖层地基上修建高土石坝,其防渗体系的可靠性是一项关键技术问题。针对瀑布沟水电站堆石坝的实际工程特点,应用自适应有限元方法,分析研究了大坝的稳定性和覆盖层中混凝土防渗墙与坝内黏土心墙接头部位的局部应力和变形情况,对比分析了不同接头形式的利弊,为设计部门推荐了合适的接头形式。

防渗墙粗粒土槽孔泥皮的抗渗性试验研究

通过自制泥浆渗透试验仪,针对粗粒土地基防渗墙泥皮的渗透稳定性问题,开展了护壁泥皮抗渗性能的试验研究。结果表明,泥皮具有明显的截渗作用;不同压差作用下泥浆渗透形成的泥皮具有不同的抗渗特性,压差越大、泥皮越致密,抵抗渗透破坏的能力越强,泥皮的渗透性也就越小;反压渗水作用下泥皮的抗渗性能较正压渗水作用下的抗渗性能差;随着水力作用持续时间的增长,泥皮的结构发生变化,孔隙增大,流速逐渐增大,在较大水力梯度作用下会发生破坏;泥皮的临界水力梯度与其形成时压差作用大小有关,泥皮形成压差越大,正、反向渗水的临界水力梯度越大;反之,临界水力梯度越小。关于泥皮抗渗性能的深化认识,对于完善防渗墙设计与施工具有重要的意义。

Effects of Rock Bolting on Stress Distribution around Tunnel Using the Elastoplastic Model

To ensure the stability of a tunnel during construction, rock bolts are usually installed, which affects the stress distribution around the tunnel. Therefore, it is necessary to study the effects of rock bolting on the stress distribution around the tunnel. In this article, the effects of rock bolting on the stress distribution around the tunnel, including the pesition and orientation of bolts, the overburden depths, and the bolt lengths, are simulated using the ANSYS software with an elnstoplastic model. The effect of multiple bolts of 2 m and 1 m lengths on the stress distribution in the roof and on the lateral sides of a tunnel and at different overburden depths is considered. An important finding is that the tensile stress region that is very dangerous for rock in the bottom of the tunnel grows rapidly with increasing overburden depths when rock bolts are installed only in the roof or on the lateral sides of a tunnel. The determination of the length of the rock bolt used around a tunnel is dependent on the loads and the integrity of the rock mass around the tunnel. In addition, rock bolting around the tunnel can obviously reduce the coefficients and the size of the region of stress concentration, especially when installed in high-stress areas. This fact is very important and essential for the design of tunnels and ensures engineering safety in tunnel engineering.

浇筑式沥青混凝土心墙坝心墙性态的有限元分析

采用邓肯-张模型对浇筑式沥青混凝土心墙坝的应力与变形进行有限元计算,得到了浇筑式沥青混凝土心墙的温度和沥青用量对不同坝高情况下心墙工作性态的影响。发现在坝高较低时,心墙温度、沥青用量对心墙工作性态的影响很小;在高坝情况下,心墙温度、沥青用量对心墙位移的影响较小,但对心墙应力极值和应力水平极值的影响则较为明显。另外,通过对不同覆盖层厚度下心墙工作状态的分析,发现当覆盖层厚度较大时,浇筑式沥青混凝土心墙的位移及应力水平极值明显大于碾压式沥青混凝土心墙。

浅埋煤层开采顶板移动规律及强制放顶技术

为了给200 m浅埋煤层地质条件下的顶板灾害防治提供理论依据和技术基础,基于榆阳煤矿2301工作面的开采实践,采用了现场实际资料总结和理论分析等方法,对该地质采矿条件下的基本顶初次来压和周期来压进行了分析和计算。研究得出,榆阳煤矿工作面顶板是板式结构的破断,基本顶初次来压步距大,其坚硬顶板在采空区形成大面积顶板来压并造成飓风,对工作面安全生产构成严重威胁。因此,在初采期间需对顶板实施强制性放顶,放顶措施采用的是深孔预裂爆破技术,以此保证初采初放期间工作面顶板安全。

中小型煤矿浅埋厚松散层薄基岩下安全开采

针对陕北煤田中小煤矿采用的长壁留煤柱开采,防灾减灾的技术目标是区分两类不同性质的煤柱,即区内煤柱和区域间的隔离煤柱,实现隔离小区域的适时无灾害垮落,防止跨隔离区的大范围垮落。建立防止大型顶板事故的“设计-诊断-监测-识别-对策”体系。