黄土丘陵区堆积体边坡对上方来水的侵蚀响应

为探明上方来水类型对工程堆积体高陡边坡下部冲刷侵蚀的定量影响,以神府高速公路沿线典型工程堆积体陡坡坡面(36°)为例,设计4种上方来水类型,通过野外放水冲刷试验分析了不同上方来水类型下堆积体坡面的径流侵蚀输沙过程.结果表明:①上方来水类型对堆积体坡面下部的产流影响较小,却干扰了坡面侵蚀产沙过程,造成土壤流失量增加;②径流深、单宽径流侵蚀力和水流功率均可以较好地预测堆积体边坡下部输沙模数的变化;③单宽径流侵蚀功率可以作为表征坡面尺度次径流事件中径流侵蚀力变化的指标.研究结果可为工程堆积体土壤侵蚀强度评价、侵蚀模型建立及新增水土流失防治提供参考.     

暴雨条件下麻柳沟坡面泥石流形成过程试验研究

在对麻柳沟区域地形地质以及气候条件调查研究的基础上,设计并完成暴雨条件下麻柳沟区域坡面泥石流模型试验。通过物理模型试验,模拟区域坡面在降雨条件下的变形和破坏特征。通过对试验现象以及数据进行观测分析,研究暴雨条件下坡面侵蚀、溜滑以及由此引发的土体转化为泥石流的全过程。模型试验表明:麻柳沟区域坡面泥石流类型为降雨型、阵型、滑坡型泥石流;强降雨条件下,泥石流形成与表面冲刷及饱和土体浅层滑动有密切关系;泥石流形成大概可分为以下几个阶段:土体浸润→蠕变→局部溜滑→局部产流冲蚀→大规模滑动→泥石流体形成。     

冰碛土体起动泥石流的特征研究

与广泛分布于干旱河谷的宽级配砾石土体特征不同,冰碛土广泛分布在青藏高原地区,属粗大颗粒多、粘粒含量少、摩擦阻力大、粘滞阻力小的宽级配砾石土体。在冰川融雪与降雨的共同作用下冰碛土体可失稳并起动泥石流,形成灾害。针对冰碛土体起动泥石流机理研究薄弱的现状,本文选取波密县帕隆藏布流域的支流嘎弄沟一冰碛土堆积坡面,通过模拟降水与冰雪融水起动冰川泥石流实验,比较不同颗粒组成、不同实验条件下的土体起动泥石流特征,分析其起动成因及力学特性,探讨冰碛土体起动泥石流的机理。研究发现冰碛土体失稳起动泥石流是粘滞阻力降低、孔隙水压力升高、拖曳力与渗流侵蚀共同作用的结果,起动过程受粘土颗粒含量和径流类型的影响。当粘粒含量较高时(>3%),土体通过铲蚀与面蚀形成泥石流;粘粒含量中低时(不高于3%),大部分坡面土体主要经掏蚀与坍塌起动泥石流;粘粒含量过低时(<0.32%),土体难以起动泥石流。在降水作用下土体孔隙水压力迅速增加,易造成土体破坏,起动泥石流;而在冰雪融水的作用下,土体孔隙水压力波动幅度不大时,土体同样可能发生失稳破坏起动泥石流。     

九寨沟震区泥石流物源特征研究

基于九寨沟震区泥石流相关资料及现场调查,分析得出震区泥石流物源类型主要有崩滑型物源、沟道冲刷型物源、坡面侵蚀型物源,根据九寨沟震区泥石流物源启动与补给方式建立震后九寨沟震区泥石流物源启动模式。选取震区29处泥石流为样本,对九寨沟震区泥石流动储量及物源总量进行相关性统计分析,得出九寨沟震区泥石流动储量及物源总量比例关系统计方法。     

黏性泥石流沟道侵蚀启动机制研究

黏性泥石流具有非常强的侵蚀能力,在其运动过程中不断地对沟道进行下蚀和侧蚀,并将沟道中大量的松散物质带走,增大了泥石流的危害性。根据黏性泥石流本构模型和土体抗剪强度理论,以极限分析的上限定理为工具,在假定沟床以圆弧面侵蚀的条件下,研究了黏性泥石流运动对沟道土体的侵蚀启动机制,建议了相应的计算公式和判断准则,讨论了泥石流重度、沟道坡降、土体强度等因素对沟道土体受泥石流侵蚀启动速度的影响。     

降雨冲刷对黄土公路边坡植物防护影响的试验研究

通过对裸露黄土公路边坡、厚层基材植草公路边坡、三维网植草公路边坡以及平台植树公路边坡的现场降雨冲刷试验,阐述了不同防护型式的公路黄土边坡在降雨条件下的坡面径流、含泥量以及坡面冲刷情况,得出了降雨对边坡坡面的侵蚀过程,首先是从雨滴直接打击土体开始,进而引起溅蚀,分散土粒,紧接着发生超渗径流造成坡面冲刷。以及对坡面破坏最大的是坡顶上方来水等重要结论。验证了坡面植物防护以及平台植树等防护方法可以有效降低降雨冲刷对坡面的侵蚀破坏,为黄土地区公路边坡植物防护的设计施工以提供了可靠的依据。     

非饱和黄土基质吸力的滤纸法测试

黄土属于非饱和土,具有明显的大孔隙、垂直节理发育、湿陷性等特征,使得黄土地区工程地质灾害问题频发。由于黄土具有水敏性,因此水的因素成为诱发地质灾害的主要因素。基质吸力的变化是土体边坡稳定的重要因素。利用滤纸法对非饱和黄土的基质吸力进行试验研究,得出随着含水率的增加基质吸力逐渐减小;在土体含水率较小时基质吸力的变化比较敏感,含水率越高,其变化越小;在含水率达到饱和时基质吸力消失为零;并且随含水率的增加土体的抗剪强度逐渐减小。研究认为,滤纸法对操作过程中空气条件要求相对严格,是一种能够快速、简便测试非饱和土体基质吸力的方法。      

强降雨作用下边(滑)坡稳定性分析及预警技术研究

以四川汉源二蛮山滑坡为例,根据现场滑坡情况勘查及室内试验确定土体参数;选择内置VBA为开发工具,开发基于ArcGIS的边（滑）坡稳定性分析插件,并据此得出研究区域危险区划评价图.研究结果表明,特殊地形条件、震后地质构造、连续强降雨以及坡体非饱和渗流等,使孔隙水压力增加和土基质吸力迅速减少,导致坡体滑移面处土的抗剪强度降低而发生滑坡;基于ArcGIS软件得出研究区域危险区划评价图,与滑坡的实际情况具有较高吻合度.研究成果为深入分析强降雨对边（滑）坡影响及边（滑）坡预警提供了新的途径.     

震后沟道泥石流启动条件——松散堆积体雨中失稳的水力学机制分析

5.12地震导致大规模的松散崩滑物质堆积于沟道,极大的增加了震后降雨型沟道泥石流爆发的概率。然而,灾后特殊的物源条件和成灾环境改变了传统沟道泥石流的形成机制,给震后沟道泥石流的防治工作带来了巨大的困难。为此,以水文学为基础,在构建松散堆积体潜水位变化水文学模型的前提下,借助水力学理论,分析了沟道堆积体内水力随潜水位变化的规律和特征,研究作用在单元条块堆积体上静水压力和动水压力的计算方法。在合理分段沟道松散堆积体的前提下,基于无限边坡理论完成了对各段堆积体下滑力、基底抗滑力及剩余下滑力的表达构建。结合算例解析了震后降雨条件下堆积体失稳的力学机制。分析表明,震后沟道松散堆积体失稳启动并泥石流化是流域降雨作用下堆积体内潜水位不断抬升、水力环境不断劣化的结果。流域大、沟道窄、堆积深、导水系数小、沟床缓的堆积体因较高的潜水位更易在降雨中失稳,且失稳模式因条块间剩余下滑力差异而分为整体推移启动及解体牵引启动两类。     

降雨诱发震后松散堆积滑坡的启动试验研究

通过不同降雨入渗形式和潜在滑动面倾角的滑坡模型试验,分析了强震后松散堆积体的降雨入渗过程及变形启动机理,研究认为:当降雨渗流至前缘孔隙水压力突增时滑坡启动,松散堆积体抗滑段土体的有效应力快速下降甚至局部液化是导致滑坡失稳的主要原因。滑坡启动时的临界孔隙水压力及临界位移量与主滑段滑面倾角呈负相关关系。滑坡中后部的变形具有渐变特征而前部的变形则具有明显的突发特征。最后在试验基础上分析建立了强震后松散堆积滑坡临界启动的地质-水文-力学机制模型,提出了识别预警指标。     

Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area

Several giant debris flows occurred in southwestern China after the Wenchuan earthquake, causing serious casualties and economic losses. Debris flows were frequently triggered after the earthquake. A relatively accurate prediction of these post-seismic debris flows can help to reduce the consequent damages. Existing debris flow prediction is almost based on the study of the relationship between post-earthquake debris flows and rainfall. The relationship between the occurrence of post-seismic debris flows and characteristic rainfall patterns was studied in this paper. Fourteen rainfall events related to debris flows that occurred in four watersheds in the Wenchuan earthquake area were collected. By analyzing the rainfall data, characteristics of rainfall events that triggered debris flows after the earthquake were obtained. Both the critical maximum rainfall intensity and average rainfall intensity increased with the time. To describe the critical conditions for debris flow initiation, intensity–duration curves were constructed, which shows how the threshold for triggering debris flows increased each year. The time that the critical rainfall intensities of debris flow occurrences return to the value prior to the earthquake could not be estimated due to the absent rainfall data before the earthquake. Rainfall-triggering response patterns could be distinguished for rainfall-induced debris flows. The critical rainfall patterns related to debris flows could be divided on the basis of antecedent rainfall duration and intensity into three categories: (1) a rapid triggering response pattern, (2) an intermediate triggering response pattern, and (3) a slow triggering response pattern. The triggering response patterns are closely related to the initiation mechanisms of post-earthquake debris flows. The main difference in initiation mechanisms and difference in triggering patterns by rainfall is regulated by the infiltration process and determined by a number of parameters, such as hydro-mechanical soil characteristics, the thickness of the soil, and the slope gradient. In case of a rapid triggering response rainfall pattern, the hydraulic conductivity and initial moisture content are the main impact factors. Runoff erosion and rapid loading of solid material is the dominant process. In case of a rainfall pattern with a slow triggering response, the thickness and strength of the soil, high hydraulic conductivity, and rainfall intensity are the impact factors. Probably slope failure is the most dominant process initiating debris flows. In case of an intermediate triggering response pattern, both debris flow initiation mechanisms (runoff erosion and slope failure) can play a role.     

Response of a loess landslide to rainfall: observations from a field artificial rainfall experiment in Bailong River Basin,China

Rainfall-induced landslides are a significant hazard in many areas of loess-covered terrain in Northwest China. To investigate the response of a loess landslide to rainfall, a series of artificial rainfall experiments were conducted on a natural loess slope, located in the Bailong River Basin, in southern Gansu Province. The slope was instrumented to measure surface runoff, pore water pressure, soil water content, earth pressure, displacement, and rainfall. The hydrological response was also characterized by time-lapse electrical resistivity tomography. The results show that most of the rainfall infiltrated into the loess landslide, and that the pore water pressure and water content responded rapidly to simulated rainfall events. This indicates that rainfall infiltration on the loess landslide was significantly affected by preferential flow through fissures and macropores. Different patterns of pore water pressure and water content variations were determined by the antecedent soil moisture conditions, and by the balance between water recharge and drainage in the corresponding sections. We observed three stages of changing pore water pressure and displacement within the loess landslide during the artificial rainfall events: Increases in pore water pressure initiated movement on the slope, acceleration in movement resulting in a rapid decrease in pore water pressure, and attainment of a steady state. We infer that a negative pore water pressure feedback process may have occurred in response to shear-induced dilation of material as the slope movement accelerated. The process of shear dilatant strengthening may explain the phenomenon of semi-continuous movement of the loess landslide. Shear dilatant strengthening, caused by intermittent or continuous rainfall over long periods, can occur without triggering rapid slope failure.     

不同粒径级配条件下工程弃渣泥石流启动机理研究

通过开展室内水槽试验,利用孔隙水压力传感器记录工程弃渣泥石流形成过程中的孔隙水压力变化情况,并运用高清摄像机拍摄工程弃渣的运移及骨架颗粒的破坏现象。试验发现:在相同清水流量作用下,堆积渣体破坏方式主要受渣体中粒径为2 mm的砾粒含量影响较大,当粒径大于2 mm的砾粒含量大于50%时,渣体呈现出的破坏模式主要为冲刷破坏造成的顶面下切,孔隙水压力呈现出陡增的趋势,然后处于平缓;当粒径小于2 mm的砾粒含量均大于65%时（即粒径大于2 mm的砾粒含量小于50%）,渣体呈现出的破坏模式主要为渗流作用造成的底面冲蚀,孔隙水压力呈现出弧线上升的特征。     

不同渗流边界条件下粉砂边坡失稳模型试验研究

研究不同渗流边界条件下粉砂边坡的稳定特性对滑坡安全评价及防灾减灾具有重要意义。开发研制了室内边坡模型试验系统,分别进行了在上部边界入渗、侧向边界入渗和底部边界入渗的边坡失稳模型试验。分析了各试验中边坡内部不同位置体积含水率、孔隙水压力和基质吸力的变化规律以及坡体破坏过程。结果表明,不同入渗边界条件下边坡土体局部由非饱和变为饱和状态,基质吸力消失,最后在坡面形成不稳定区域塌落破坏。上部边界入渗、侧向边界入渗和底部边界入渗所引起的破坏模式根据其特点可分为局部浅层破坏、多级后退式破坏和坡面滑动破坏。通过监测边坡不同位置的体积含水率,可以为渗流引发的边坡失稳预警机制提供参考依据。     

人工降雨条件下冲沟型泥石流起动试验研究

下垫面以位于贡嘎山东坡的熊家沟为模型,开展了不同降雨强度条件下冲沟型泥石流起动的模拟试验,初步研究了冲沟型泥石流的形成机理和演化特征.试验研究表明:(1)在强降雨条件下,水体入渗速度、不同深度土体含水量变化与降雨强度呈反比例关系,降雨强度越大,越不利于水体入渗,而有利于坡面汇流、冲沟径流和下切侵蚀; (2)在强降雨和径流条件下,土体破坏方式、破坏程度以及泥石流形成机理表现出差异性.相对较小雨强降雨条件下,土体破坏方式以滑坡为主,泥石流形成模式表现为滑坡液化与转化起动,雨强较大降雨条件下,土体破坏方式以侵蚀垮塌为主,泥石流形成模式为洪流席卷垮塌体和沟床揭底; (3)起动试验中泥石流阵性特征明显.在强降雨条件下,雨强与泥石流的规模、黏度之间没有正相关性,雨强越大,泥石流黏度越小,试验中多出现的是高含砂洪流,而相对较小雨强作用下由土体液化转化形成的泥石流黏度较大.试验现象和结果与熊家沟泥石流起动、发生过程具有较高的一致性.     

上方来水对坡面降雨入渗及土壤水分再分布的影响

在防止土壤侵蚀和雨后抑制蒸发的条件下,利用室内模拟降雨试验,研究了上方来水对坡面降雨入渗、湿润锋运移以及土壤水分再分布的影响。结果表明:对于初始含水量很低的土壤,与上方无来水相比,上方来水时降雨入渗过程中入渗率有一个上升的阶段,但平均入渗率反而降低;在降雨入渗初期,由于上方来水的沿程入渗,上方来水对坡面湿润锋运移的影响较大,但随后几乎没有影响,湿润锋的运移主要与基质势梯度有关;土壤水分沿坡面呈"波浪形"分布是坡面径流的波动性、上方来水(径流)的沿程入渗以及侧向沿坡向下流等综合作用的结果。     

水-力耦合及干湿循环效应对浅层残积土斜坡稳定性的影响

降雨入渗过程中,土体吸力降低,体积明显改变。天然浅层土体长期受到季节性气候变化的影响,因此,开展水-力耦合及干湿交替对浅层残积土坡稳定性影响的数值分析,分析浅层土坡孔隙水压力、湿润锋及安全系数的时空演变规律,并对水-力耦合及干湿交替条件下的浅层土坡失稳破坏机制进行探讨显得尤为必要。研究结果表明:随着干湿循环次数的增加,水-力耦合分析下孔隙水压力以及湿润锋的迁移速度增加更快,边坡也更易失稳破坏;干湿交替初期,雨水入渗易引起地下水位上升,边坡可因正孔隙水压力的增加而失稳;干湿交替后期,湿润锋的快速推进加剧基质吸力迅速丧失及土体强度下降,边坡安全系数显著降低,发生失稳破坏的时间缩短。因此,可将湿润锋处的安全系数(局部最小值)作为控制边坡长期稳定性的临界值。