煤体静载破坏中低频磁场变化特征及产生机制研究     

李成武  付帅  解北京  李光耀  宛天宇 《岩土力学》2019,40(2):481-488

为了研究煤体静载破坏中低频磁场变化特征及其产生机制,进一步完善煤矿动力灾害监测预警技术,通过室内试验、现场试验研究了煤体静载破坏中低频磁场时、频谱特征,并结合微震信号提出了低频磁信号的产生机制。结果表明：煤体静载破坏中所产生低频磁场信号强度为19～156 nT,信号最大幅值、能量与试样强度、加载速度均呈正相关关系。垂直于裂纹扩展面磁场最强,平行于裂纹扩展面磁场最弱。并结果微震信号提出了低频磁场产生机制。低频磁场与微震信号具有时、频域同步性,带电裂纹面随微震信号同频振荡为低频磁场产生机制。现场放炮破煤低频磁信号由簇状脉冲信号及小幅震荡信号组成,其中簇状脉冲成分产生于炮后振动波带动带电壁面的同频振动,而小幅震荡成分是巷帮煤壁趋向新应力平衡状态时发生的横向拉伸破坏及带电煤碎屑运移、摩擦及转动的结果。  相似文献   

微生物诱导碳酸盐沉积改善裂隙岩石防渗性能和强度的试验研究     

邓红卫  罗益林  邓畯仁  伍礼杰  张亚南  彭述权 《岩土力学》2019,(9):3542-3548,3558

微生物诱导碳酸盐沉积(MICP)技术主要利用微生物生命活动与环境反应形成的碳酸盐来修复岩土体。为了研究该技术改善含裂隙岩石防渗性能和强度的效果,利用巴氏芽孢杆菌开展了裂隙黄砂岩的修复试验,并对修复后的裂隙黄砂岩进行了无侧限抗压、核磁共振和电镜扫描(SEM)等测试,分析了巴氏芽孢杆菌对裂隙黄砂岩的修复效果和修复机制。研究表明:巴氏芽孢杆菌对裂隙黄砂岩具有较好的修复效果;修复时间越长,巴氏芽孢杆菌的修复效果越好。修复42d后,裂隙黄砂岩的孔隙率下降36.41%,防渗性能提升94.62%,抗压强度增加30.52%。巴氏芽孢杆菌具有较好修复效果原因在于,其诱导产生的碳酸钙能够胶结填充物与试样,大幅降低试样的孔隙率,改善其内部孔隙结构的均质性。  相似文献   

三峡库区巫山金鸡岭滑坡成因机制与变形特征     

闫国强  殷跃平  黄波林  张枝华  代贞伟 《岩土力学》2019,40(Z1):329-340

三峡库区新城区迁建多采用就地后靠方式,工程扰动叠加强降雨往往诱发滑坡失稳。基于重庆巫山江东小区金鸡岭滑坡,对其影响因素和成因机制进行探讨。工程扰动不仅是传统认为的后缘加载、前缘削脚作用,更重要的是坡体表层土方堆填阻断了滑坡体地表水泄流通道,使地表水向地下水转化。强降雨作用下滑坡体内地下水位明显升高,导致金鸡岭滑坡2018年8月1日前后发生较大变形。采取降水井抽排地下水等应急处置后,滑坡变形明显趋缓,可见工程扰动导致的地下水升高是该滑坡诱发的关键因素。数值模拟表明,工程扰动后稳定系数明显降低,对应堆填区渗流场变化明显,渗流加剧,孔隙水压力、水力梯度、总水头上升,结合达西定律与有效应力原理可知渗透力增加,抗剪强度削弱,诱发滑坡变形。  相似文献   

钠基蒙脱土水合演化机制     

张云龙  项伟  黄伟  刘清秉  DAO Minh huan 《岩土力学》2019,40(11):4391-4400

为了查明钠基蒙脱土的水合演化过程,以天然钠基蒙脱土为研究对象,开展在相对湿度（ ）为0～0.98区间的水汽等温吸-脱附试验,通过吸附速率曲线、BET曲线界定钠基蒙脱土各水合阶段及相应的水合主控因素;通过测定晶层 值变化规律,从吸附水影响黏土矿物晶层厚度的角度探讨钠基蒙脱土的水合演化特征;基于傅里叶红外光谱,从水分子结构伸缩振动信息角度对钠基蒙脱土水合演化过程进行定性定量验证;通过热重/差热分析,以吸附水相变所需能量与吸附水重量变化的角度解释钠基蒙脱土的吸附水特征与其水合机制的关系。试验结果表明：在较低相对湿度下（0 0.15）,以钠基蒙脱土矿物外表面吸附为主,形成表面吸附水;0.15 0.40为钠基蒙脱土层间阳离子水合阶段;0.40 0.98,为晶层内外表面水合阶段,水分子逐步完整的包裹蒙脱土,形成多层吸附层。钠基蒙脱土的水合演化过程受控于层间钠离子与晶层基面,层间钠离子的水合能影响了钠基蒙脱土水合演化的起始顺序。  相似文献   

特克斯达坂滑坡灾害发育特征、成因机制及防治措施     

曹小红  尚彦军  弓小平  孟和  艾比拜尔·买买提 《新疆地质》2019,(2):260-265

地形、岩土性质与岩土结构、降水及融雪为滑坡的发生提供了极有利的条件。通过现场调查、文献调研,分析特克斯达坂滑坡灾害发育特征及孕灾机制,计算其稳定性,推测其形成的力学机制为推移式;揭示特克斯黄土+泥岩结构、黄土+基岩(灰岩)结构、黄土+砂砾石+软岩(泥岩)岩土体结构主要滑坡类型的致滑机理;对研究区内不稳定斜坡采用“内外钢丝网+横纵混凝土梁+混凝土盖和防护柱(外壁带钢筋倒刺)+黄土中植草”加固。  相似文献   

Meso‐Cenozoic Tectonothermal History of Permian Strata,Southwestern Weibei Uplift: Insights from Thermochronology and Geothermometry     

YU Qiang  REN Zhanli  LI Rongxi  TAO Ni  QI Kai  JIANG Cheng  WANG Baojiang 《《地质学报》英文版》2019,93(6):1647-1661

This study provides an integrated interpretation for the Mesozoic-Cenozoic tectonothermal evolutionary history of the Permian strata in the Qishan area of the southwestern Weibei Uplift, Ordos Basin. Apatite fission-track and apatite/zircon(U-Th)/He thermochronometry, bitumen reflectance, thermal conductivity of rocks, paleotemperature recovery, and basin modeling were used to restore the Meso-Cenozoic tectonothermal history of the Permian Strata. The Triassic AFT data have a pooled age of ～180±7 Ma with one age peak and P(χ2)=86%. The average value of corrected apatite(U-Th)/He age of two Permian sandstones is ～168±4 Ma and a zircon(U-Th)/He age from the Cambrian strata is ～231±14 Ma. Bitumen reflectance and maximum paleotemperature of two Ordovician mudstones are 1.81%, 1.57% and ～210°C, ～196°C respectively. After undergoing a rapid subsidence and increasing temperature in Triassic influenced by intrusive rocks in some areas, the Permian strata experienced four cooling-uplift stages after the time when the maximum paleotemperature reached in late Jurassic:(1) A cooling stage(～163 Ma to ～140 Ma) with temperatures ranging from ～132°C to ～53°C and a cooling rate of ～3°C/Ma, an erosion thickness of ～1900 m and an uplift rate of ～82 m/Ma;(2) A cooling stage(～140 Ma to ～52 Ma) with temperatures ranging from ～53°C to ～47°C and a cooling rate less than ～0.1°C/Ma, an erosion thickness of ～300 m and an uplift rate of ～3 m/Ma;(3)(～52 Ma to ～8 Ma) with ～47°C to ～43°C and ～0.1°C/Ma, an erosion thickness of ～500 m and an uplift rate of ～11 m/Ma;(3)(～8 Ma to present) with ～43°C to ～20°C and ～3°C/Ma, an erosion thickness of ～650 m and an uplift rate of ～81 m/Ma. The tectonothermal evolutionary history of the Qishan area in Triassic was influenced by the interaction of the Qinling Orogeny and the Weibei Uplift, and the south Qishan area had the earliest uplift-cooling time compared to other parts within the Weibei Uplift. The early Eocene at ～52 Ma and the late Miocene at ～8 Ma, as two significant turning points after which both the rate of uplift and the rate of temperature changed rapidly, were two key time for the uplift-cooling history of the Permian strata in the Qishan area of the southwestern Weibei Uplift, Ordos Basin.  相似文献   

Characteristics and Formation Mechanism of Giant Long‐Runout Landslide: A Case Study of the Gamisi Ancient Landslide in the Upper Minjiang River,China     

GUO Changbao  WU Ruian  ZHANG Yongshuang  REN Sanshao  YANG Zhihu  LI Xue 《《地质学报》英文版》2019,93(4):1113-1124

The upper reaches of the Minjiang River are in the eastern margin of the Tibetan Plateau, where active faults are well developed and earthquakes frequently occur. Anomalous climate change and the extremely complex geomechanical properties of rock and soil have resulted in a number of geohazards. Based on the analysis of remote sensing interpretations, geological field surveys, geophysical prospecting and geological dating results, this paper discusses the developmental characteristics of the Gamisi ancient landslide in Songpan County, Sichuan Province, and investigates its geological age and formation mechanism. This study finds that the Gamisi ancient landslide is in the periglacial region of the Minshan Mountain and formed approximately 25 ka BP. The landslide initiation zone has a collapse and slide zone of approximately 22.65×106–31.7×106 m3 and shows a maximum sliding distance of approximately 1.42 km, with an elevation difference of approximately 310 m between the back wall of the landslide and the leading edge of the accumulation area. The landslide movement was characterized by a high speed and long runout. During the sliding process, the landslide body eroded and dammed the ancient Minjiang River valley. The ancient river channel was buried 30-60 m below the surface of the landslide accumulation area. Geophysical prospecting and drilling observations revealed that the ancient riverbed was approximately 80-100 m thick. After the dam broke, the Minjiang River was migrated to the current channel at the leading edge of the landslide. The Gamisi ancient landslide was greatly affected by the regional crustal uplift, topography, geomorphology and paleoclimatic change. The combined action of periglacial karstification and climate change caused the limestone at the rear edge of the landslide fractured, thus providing a lithological foundation for landslide occurrence. Intense tectonic activity along the Minjiang Fault, which runs through the middle and trailing parts of the Gamisi ancient landslide, may have been the main factor inducing landsliding. Studying the Gamisi ancient landslide is of great significance for investigating the regional response to paleoclimatic change and geomorphologic evolution of the Minjiang Fault since the late Pleistocene and for disaster prevention and mitigation.  相似文献   

白云凹陷第三系储层中铁白云石的成因机理及与CO2活动的关系     

庞江  罗静兰  马永坤  蔡国富  雷川  李弛  李晓艳  张月霞 《地质学报》2019,93(3):724-737

白云凹陷第三系储层中发育大量的铁白云石,受研究区热流背景的影响,铁白云石主要见于高地温梯度地区埋深1000～3000m、地层温度60～130℃的浅—中部地层中及CO_2热流体活动区域。铁白云石的δ~(13)C值(-2.83‰～-1.83‰)具有无机成因的特征,与研究区气藏中幔源岩浆成因CO_2的δ~(13)C值较为一致,铁白云石的δ~(18)O值(-9.45‰～-5.37‰)和~(87)Sr/~(86)Sr值(0.7101～0.7161)也反映了其沉淀受到深部热流体活动的影响。以两口典型CO_2气井为例,储层中流体包裹体均一温度及蒙脱石向伊利石的演化特征证明储层经历了热流体侵入;CO_2热流体活动区域不仅是铁白云石集中分布地带,并出现片钠铝石+铁白云石+菱铁矿等示踪CO_2运移、聚集的自生矿物组合。地层中铁白云石、高岭石含量与气藏中CO_2的含量呈正相关关系,绿泥石含量与CO_2、铁白云石含量呈反消长关系。高地温梯度地区丰富的CO_2热流体活动是该地区储层中铁白云石沉淀与含量高的重要原因,无机岩浆成因CO_2是铁白云石沉淀的主要碳源,CO_2热流体充注造成绿泥石等黏土矿物异常转化,为铁白云石沉淀提供了所需的Fe~(2+)、Mg~(2+)离子。  相似文献   

山坡表层关键带结构与水文连通性研究进展   总被引：2，自引：0，他引：2       下载免费PDF全文

刘金涛  韩小乐  刘建立  梁忠民  贺瑞敏 《水科学进展》2019,30(1):112-122

山丘区是洪水的"策源地",山丘区坡地、沟谷及间歇性河道为洪水的形成提供了通道,同时也是水文连通时空变化最为强烈的地带。然而,对流域表层关键带结构特征及其水文连通机制等的认识尚存不足,限制了产汇流理论及模型方法的发展和应用。通过对比国内外山坡水文实验,发现山坡物理结构连通性控制并深刻影响着水流的连通过程,现有水文连通实验侧重孔隙等微观尺度的规律研究,与水文模型理论存在尺度上的巨大偏差。为此,提出水文连通性应侧重揭示水流在山坡地表、地下的宏观表象通道及分布特征,探索径流连通的动力学机制,即山坡水文连通性研究重在剖析其结构特征的水文累积效应,应保持关键带结构特征合理概化与产汇流理论适度复杂之间的平衡。  相似文献   

东濮凹陷沙三段致密砂岩储层裂缝形成机制及对储层物性的影响     

刘卫彬  张世奇  徐兴友  周新桂  李世臻  陈珊  白静 《大地构造与成矿学》2019,43(1):58-68

为探讨东濮凹陷沙三段储层裂缝的发育特征、形成机制、主控因素及其对储层的影响,综合运用岩心观察、薄片鉴定、扫描电镜、流体包裹体分析等方法对裂缝进行了研究。结果表明:东濮凹陷沙三段储层中发育的裂缝按规模可分为宏观裂缝和微观裂缝两大类,按成因可分为构造缝、超压缝和成岩缝。构造缝走向以NNE向、NE向为主,其形成可分为两期,分别为40～35 Ma沙河街组沉积中后期和25～18 Ma东营组沉积末期。超压缝的形成与膏盐脱水、烃类充注和膏盐层封堵作用有关,形成于33～25 Ma东营组沉积时期。压实作用、溶解作用、收缩作用等成岩作用均可形成微裂缝。裂缝的形成序列为:早期构造缝-压裂缝-溶解缝-超压缝-收缩缝-晚期构造缝-溶解缝-压裂缝;裂缝的发育可以改善储层物性,宏观裂缝主要起渗流作用,微观裂缝既可作为有效的储集空间,又可作为酸性流体流动通道,产生次生孔隙带,提高储层孔隙度。  相似文献