不同含水量顺层坡风化界面剩余下滑力研究及工程防护意义

研究了含水量对顺层坡风化界面剩余下滑力的影响。以贵州高速公路某段顺层坡填方路基为背景,将室内试验与剩余下滑力计算结合进行研究。结果表明:黏聚力在最优含水量附近存在着极大值。黏聚力c随含水量增大先增大后减小。内摩擦角φ在最优含水量附近时也有极大值,呈现同样的规律先增大后降低。随着含水量增加,下滑段先变短后增长,抗滑段先增长后变短。最优含水量时,桩板墙所承受的剩余下滑力最小。分析认为含水量的增大一方面加速了顺层坡泥质成分的软化,加速了层面的破坏。另一方面降低了风化界面的力学参数,抗剪强度降低,剩余下滑力增大。因此,对于该段路基边坡设计而言,应在左幅坡体挖盲沟进行排水,减少流入路基的地下水;同时防治排水沟渗漏水进入路基;路基内部应设置盲沟,降低地下水的长期集聚对风化面的侵蚀软化。

含水量对顺层坡风化界面剪切特性试验研究

顺层坡风化界面常为顺层坡破坏的潜在滑动面。为指导边坡防护设计,利用直剪试验探究含水量对顺层坡风化界面剪切特性的影响。结果表明:风化界面的剪切存在剪切软化特征,应力越大,风化界面的应变软化的特征越明显。风化界面以13.2%含水量为界,黏聚力和内摩擦角先增大后降低,25.4%的含水量时,风化界面剪切过程中存在流态特征。设计人员应设计措施使土体含水量保持在最优含水量,增强边坡自身稳定性;另一方面,设计防护支挡应充分考虑土体黏聚力和内摩擦角随含水量增大而表现出的参数弱化,使边坡在界面参数弱化后依然保持稳定不滑塌。

含水率对花岗岩边坡风化层界面剪切特性的影响

为了研究含水率变化对成层状风化花岗岩边坡稳定性的影响,进行了一系列单调直剪试验。设置四种含水率(13%、17%、21%和25%)和三种干密度(ρ_(d1)、ρ_(d2)、ρ_(d3)),分析不同干密度下含水率对花岗岩残积土-全风化花岗岩界面剪切特性的影响。试验结果表明:在低含水率、高干密度和低竖向应力下,界面剪应力易发生剪切软化,反之,更易发生剪切硬化;含水率越高,最大剪胀量越小,且干密度越大,最大剪胀量受含水率变化的影响越小;含水率升高会大幅降低界面抗剪强度,且干密度越大、竖向应力越小,界面抗剪强度随含水率的变化率越大。

张吉怀高速铁路深路堑边坡失稳机理及治理措施

张吉怀(张家界—吉首—怀化)高速铁路某深路堑施工过程中出现坡顶开裂错动、环形裂缝、桩孔护壁开裂等变形迹象,通过地质调绘、钻探、地表及深部位移监测等手段,查明坡体地质特征,获取滑面信息,并结合施工现状采取了针对性工程处理措施。结果表明:工程区为炭质页岩地层,风化层厚,受区域断裂带影响,岩体破碎,属劣质岩边坡;地质条件软弱、降雨影响、施工扰动是产生工程滑坡的主要诱因;边坡存在类均质体圆弧滑动和顺弱风化层顶面深层滑动两种破坏模式;通过采取刷方卸载+支挡加固+综合防排水综合处理措施,经评价边坡安全稳定。

福建东山岛八尺门海峡海底层序特征

应用Klein 510型(美)海底剖面仪装置,把220VAC或24VDC电源能转化为3.5KHZ的超短波向海底发射,经过不同物性的地层所产生的不同穿透与反射效应,从而在返回的信息记录中获得不同的屏谱记录.应用这一原理所获的地层信息可供分析各地层的各种参数如深度、层厚、风化程度和组成物等,如遇到突然异常物如礁石、沉船、断裂带也可从屏谱中显示出来并准确地找到它的位置和尺度.本装置已在厦门湾、湄洲湾、东山湾等多处工程应用中经过实践检验,并获得成功.八尺门海峡的探研同样取得海底地层特征的良好结果.

渤海海域基底“改造型火山机构”特征及油气成藏意义

定义渤海海域中生代义县组沉积期侵位定型的完整火山机构遭受改造后的残留体为基底"改造型火山机构"。以研究区大量的钻井、地震、测井以及薄片资料为基础,探讨了基底"改造型火山机构"特征及其控油气作用。结果表明,基底"改造型火山机构"主要受岩浆性质、古地貌以及后期改造共同控制,后期断裂切割与差异剥蚀是火山机构改造的主要形式;研究区火山岩发育强与弱两种喷发模式,均属于"反序式"喷发,其中爆发相与中、酸性溢流相为优质储集相带;风化、旋回、期次界面控制优质岩相的垂向展布,各级次界面与残存优质岩相耦合是油气富集的关键。在风化壳或喷发界面150 m以内,同时优质岩相残存的火山机构中寻找期次界面是此类火山岩勘探的重点。

山丘区变动产流层分布式水文模型

基于山坡水文试验的新认识,提出变动产流层概念,将壤中流的描述从单一的土壤层间拓展到土壤-风化基岩界面,通过对壤中流形成及发展过程的精细刻画,实现了蓄满-超渗产流及其转换机制的统一描述。基于变动产流层概念,根据运动波模型理论,推导了单元网格的超渗/饱和地面径流、壤中流的计算公式,利用非线性水库计算地下径流量,采用二维扩散波进行地表汇流、一维扩散波进行河道汇流,建立了面向山丘区的变动产流层分布式水文模型(VRGL)。对典型湿润山丘区的屯溪流域2010—2019年共24场洪水进行模拟,结果显示:洪峰流量和洪量的相对误差均在±20%内,确定性系数在0.84左右,表明VRGL具有较高的精度,可用于山丘区洪水预报。

琼东南盆地深水区松南低凸起基岩潜山地球物理特征及评价研究

基岩潜山油气藏具有背斜构造、整装油气田的特点,具有巨大的勘探潜力。琼东南盆地深水区钻探W8-1井实钻气层为88.4 m,探井揭开深水区基岩潜山勘探的序幕。琼东南盆地深水区基岩潜山具有埋深浅、风化程度高的特点,潜山埋深约为1000 m,风化壳孔隙度达到23%。上覆泥岩厚度薄与高孔风化壳的储盖组合导致基岩潜山顶界面反射为非波峰反射特征,需要针对性开展潜山界面识别以及潜山内幕储集性评价。从琼东南盆地基岩潜山岩石物理规律出发,探索潜山风化壳岩石物理敏感参数,建立不同风化程度地震响应特征模板,应用叠前反演、AVO分析等多属性综合预测潜山顶界面,运用DBSCAN波形聚类技术扫描潜山内幕与已钻井类似波形特征区域、变方位角裂缝扫描预测潜山内幕储集性。经多属性联合预测多个潜在有利目标,钻探W8-3井获得高产气流,证实该技术方法的有效性。

Geochemistry of sedimentary rocks from Permian–Triassic boundary sections of Tethys Himalaya: implications for paleo-weathering, provenance, and tectonic setting

The geochemical characteristics of two sections—the Permian–Triassic boundary(PTB) Guryul Ravine section, Kashmir Valley, Jammu and Kashmir,India; and the Attargoo section, Spiti Valley, Himachal Pradesh, India—have been studied in the context of provenance, paleo-weathering, and plate tectonic setting.These sections represent the siliciclastic sedimentary sequence from the Tethys Himalaya. The PTB siliciclastic sedimentary sequence in these regions primarily consists of sandstones and shales with variable thickness. Present studied sandstones and shales of both sections had chemical index of alteration values between 65 and 74; such values reveal low-to-moderate degree of chemical weathering. The chemical index of weathering in studied samples ranged from 71 to 94, suggesting a minor K-metasomatism effect on these samples. Plagioclase index of alteration in studied sections ranged from 68 to 92, indicating a moderate degree of weathering of plagioclase feldspars. The provenance discriminant function diagram suggests that the detritus involved in the formation of present studied siliciclastic sedimentary rocks fall in quartzose sedimentary and felsic igneous provenances. These sediments were deposited in a passive continental margin plate tectonic setting according to their location on a Si_2 O versus K_2O/Na_2 O tectonic setting diagram.

Interaction mechanism of the interface between a deep buried sand and a paleo-weathered rock mass using a high normal stress direct shear apparatus

In order to evaluate the feasibility of safe mining close to the contact zone under reduced security coal pillar conditions at a coal mine in eastern China, the interaction mechanism of the interface between deep buried sand and a paleo-weathered rock mass was investigated in the laboratory by direct shear testing. A DRS-1 high pressure soil shear testing machine and orthogonal design method were used in the direct shear tests. Variance and range methods were applied to analyze the sensitivity of each factor that has an influence on the mechanical characters of the interface. The test results show that the normal pressure is the main influencing factor for mechanical characteristics of the interface, while the lithological characters and roughness are minor factors; the shear stress against shear displacement curve for the interface shows an overall hyperbola relationship, no obvious peak stress and dilatancy was observed.When the normal pressure is 6 MPa, the shear strengths of interfaces with different roughness are basically the same, and when the normal pressure is more than 8 MPa, the larger the roughness of the interface, the larger will be the shear strength; the shear strength has a better linear relationship with the normal pressure, which can be described by a linear Mohr–Coulomb criterion.