高速公路通道下沉开裂治理实践

河南省省道323线登封市大冶镇一段公路软弱地基以及路面出现不均匀沉降,通道箱涵开裂,边坡为欠稳定边坡。将事故路段分为4个区域进行加固治理。通过采用注浆加固路基基础、设置坡面排水系统、提高地基的承载能力等治理措施,保证了道路的通行能力。     

慕士塔格峰洋布拉克冰川消融的观测分析

2001年7月4日至8月8日,在慕士塔格峰西侧的洋布拉克冰川海拔4600～4460m区间的冰舌段,进行了短期的冰面消融观测.慕士塔格峰冰川区暖期短,冰面强消融时期比较集中.观测期间,冰面纯消融厚度为640～1260mm水层,日平均消融厚度达26～39.6mm,推算冰舌区年消融量不低于1700～2000mm,比青藏高原内部的冰川消融强烈的多.7月21-22日出现最大消融值,在海拔4460m和4600m,日消融量分别为144.5mm和59.5mm.冰面消融随海拔上升而减小,日平均消融梯度:在裸露冰区为0.40～0.55mm·10m-1;在表碛覆盖区为0.21～3.53mm·10m-1,变幅较裸露冰区大.按裸露冰区的消融梯度计算出海拔4800m处的日平均消融量,和过去的研究资料比较,2001年冰面日平均消融量较1987年和1960年的消融量大,反映出慕士塔格峰区影响冰川消融的气候与全球气候变暖的特点是一致的.     

五峰山斜坡变形破坏机制及稳定性分析

针对五峰山斜坡变形破坏的基本特征,运用板裂结构理论和宏观地质法,分析了斜坡变形的影响因素、破坏机制和稳定状况。认为五峰山斜坡变形是各种作用长期积累的结果,不论有无其它触发因素,在自然状态下斜坡均会发生变形,变形模式为由下坡至上坡发展的溃屈破坏。位于陡坡上的碎块物质,当临界雨强达到7 6mm 10min时,将发生坡面泥石流。该研究对长江沿岸类似条件下斜坡的稳定性评价和治理具有参考价值。     

基于裂隙扩展的多级岩质边坡开挖卸荷破坏路径分析

开挖卸荷作用下裂隙岩体边坡的破坏模式与路径分析是边坡工程灾害研究的热点之一,准确识别边坡的潜在破裂路径对工程安全施工和支护优化设计具有重要意义。依据断裂扩展分析方法,将裂隙扩展判别的理论方法开发并应用于数值模拟分析中,通过裂隙尖端应力强度因子计算、裂隙扩展模式识别、裂隙起裂角演算、裂隙扩展交汇等技术实现了岩体中断续裂隙的起裂、扩展与贯通演化过程的快速模拟;以某高速公路沿线裂隙岩体路堑边坡为对象,采用提出的模拟方法分析了多级开挖卸荷作用下坡体裂隙的扩展机制与边坡的破坏路径。结果表明：裂隙岩体边坡从上至下多级开挖过程中,坡肩裂隙首先起裂,并通过拉张型扩展逐渐发展为优势裂隙;随着边坡下挖,优势裂隙沿坡面向下逐步发生拉张/剪切混合型扩展并与既有裂隙交汇,在边坡中上部形成阶梯状扩展破坏路径;裂隙扩展至边坡下部及坡脚后扩展模式由拉张/剪切混合型转化为剪切型,并最终以弧形剪切面从坡脚出露。研究揭示了裂隙岩体边坡多级开挖卸荷作用下上部阶梯状拉张/剪切混合型破裂-下部弧形剪切型破裂的复合破坏模式,可为边坡工程支护设计和施工稳定性控制提供新思路。     

土钉墙内部稳定性分析方法改进

现有土钉墙滑动面的确定方法大多假定圆弧滑动面通过坡脚,但事实并非如此。文中总结了实际中可能出现的圆弧滑动面的4种类型,利用圆弧滑动面圆心坐标与圆弧上3个位置参数的关系建立了不通过坡脚的土钉墙最危险滑动面的搜索方法。根据土钉墙滑动面的类型,讨论和完善了建筑基坑支护技术规程中土钉墙整体稳定安全系数计算公式。在3个算例中将不同方法得到的滑动面和整体稳定安全系数进行对比分析,结果表明文中方法得到的滑动面与其他方法结果接近,说明文中方法的可行性;部分情况下文中得到的滑动面不通过坡脚,而传统方法假定滑动面通过坡脚,二者计算偏差较大;对于除传统方法得到的滑动面之外的3种滑动面类型,在相同滑动面条件下完善后的公式由于考虑了部分土体重力沿滑动面切向的抗滑力作用,计算出的整体稳定安全系数稍大。     

边坡变形及失稳的变权重组合预测模型

边坡变形和失稳受本身地质条件和外部环境等多方面因素的影响,由于这些因素的复杂性、多样性及其变化的随机性导致不同的边坡的位移和变形趋势有可能存在较大的差异。在分析总结边坡变形规律的基础上,针对边坡的典型位移-历时曲线需经历初始变形、稳定变形和加速变形3个阶段,呈反“S”型的特点,根据边坡位移的实测时间序列资料建立边坡变形的成长曲线反函数变权重组合的时变预测模型。通过与工程实例的对比分析表明,各单项预测方法是基于已知样本的固定模型,能大致反映边坡变形的发展趋势,但仍存在较大误差,而所提出的方法能充分考虑不同模型的优点,有较高的精度,适用于实际工程中边坡的变形预测及失稳的预警。     

复合地基加固路堤的稳定性分析

通过对复合地基加固路堤稳定性的极限平衡法和有限单元法的计算结果进行对比分析,揭示出当路堤的稳定性由复合地基决定时,极限平衡法和有限单元法的计算结果存在较大差异。应用岩土有限元软件Plaxis中的强度折减法可得到合理的路堤稳定性分析结果。对复合地基中桩体破坏模式的分析认为,桩体发生非剪断破坏之外的弯曲、转动、拉伸等破坏模式是极限平衡法与有限单元法计算结果产生差异的根本原因。由此进一步指出,当处理存在土与结构物相互作用的边坡稳定问题时,极限平衡法的分析结果可能会高估了边坡的稳定性,应慎重判别其合理性。     

A simplified approach for studying the influence of vertical accelerations on seismic response of slopes

ABSTRACT

A simplified approach is presented for estimating permanent displacements in slopes as a result of both vertical and horizontal seismic accelerations. A study of 52 earthquake records showed that the time difference between maximum horizontal and vertical accelerations varied between 0 and 10.3 s. The approach is illustrated for an earth dam embankment by analysing the effects of five of the above earthquake records. The approach combines a pseudo-static slope stability analysis for estimation of the critical (or yield) horizontal-vertical acceleration combinations, and a Newmark type displacement analysis. Guidelines are presented for conservative choice of soil strength parameters of saturated clays for use in the stability analysis. While permanent displacements of up to 40 cm were predicted without considering the vertical acceleration component, no additional displacement above 3.5 cm resulted when this component was included. The predicted additional displacement was consistently less than 10%, and in 50% of the analyses, vertical acceleration led to smaller predicted displacements. The simple approach may be applied in analysis for any slope using real earthquake records. Using existing, empirical expressions for permanent displacement, based only on horizontal accelerations, the effect of the vertical accelerations may be conservatively estimated by increasing the displacement by 10%.     

Differential Thermal Regimes of the Tarim and Sichuan Basins in China: Implications for Hydrocarbon Generation and Conservation

The uncertainty surrounding the thermal regimes of the ultra-deep strata in the Tarim and Sichuan basins, China, is unfavorable for further hydrocarbon exploration. This study summarizes and contrasts the present-day and paleo heat flow, geothermal gradient and deep formation temperatures of the Tarim and Sichuan basins. The average heat flow of the Tarim and Sichuan basins are 42.5 ± 7.6 mW/m2 and 53.8 ± 7.6 mW/m2, respectively, reflecting the characteristics of ‘cold’ and ‘warm’ basins. The geothermal gradient with unified depths of 0–5,000 m, 0–6,000 m and 0–7,000 m in the Tarim Basin are 21.6 ± 2.9 °C/km, 20.5 ± 2.8 °C/km and 19.6 ± 2.8 °C/km, respectively, while the geothermal gradient with unified depths of 0–5,000 m, 0–6,000m and 0–7,000 m in the Sichuan Basin are 21.9 ± 2.3 °C/km, 22.1 ± 2.5 °C/km and 23.3 ± 2.4 °C/km, respectively. The differential change of the geothermal gradient between the Tarim and Sichuan basins with depth probably results from the rock thermal conductivity and heat production rate. The formation temperatures at depths of 6,000 m, 7,000 m, 8,000 m, 9,000 m and 10,000 m in the Tarim Basin are 80°C–190°C, 90°C–220°C, 100°C–230°C, 110°C–240°C and 120°C–250°C, respectively, while the formation temperatures at depths of 6,000 m, 7,000 m, 8,000 m and 9,000 m in the Sichuan Basin are 120°C–200°C, 140°C–210°C, 160°C–260°C and 180°C–280°C, respectively. The horizontal distribution pattern of the ultra-deep formation temperatures in the Tarim and Sichuan basins is mainly affected by the basement relief, fault activity and hydrothermal upwelling. The thermal modeling revealed that the paleo-heat flow in the interior of the Tarim Basin decreased since the early Cambrian with an early Permian abrupt peak, while that in the Sichuan Basin experienced three stages of steady state from Cambrian to early Permian, rapidly rising at the end of the early Permian and declining since the late Permian. The thermal regime of the Sichuan Basin was always higher than that of the Tarim Basin, which results in differential oil and gas generation and conservation in the ultra-deep ancient strata. This study not only promotes theoretical development in the exploration of ultra-deep geothermal fields, but also plays an important role in determining the maturation phase of the ultra-deep source rocks and the occurrence state of hydrocarbons in the Tarim and Sichuan basins.     

地震动作用下均匀土质边坡的临界转角分析

均质土坡变形的整体旋转角度（即转角）与其弧形滑动特征相协调,是比永久位移更为优越的土坡变形与稳定性表征量。地震动瞬态弹性变形应变能相当于土坡系统势能的动态随机性“涨落”,临界点（临界转角）作为系统本身的一个固有特性,不受地震动随机性“涨落”的影响,土坡滑动失稳的临界转角实质上对应着系统势能的突变点。基于均质土坡地震动失稳的特点,结合突变理论,给出了确定失稳临界转角的计算公式,发现其仅与滑带介质本构模型参数 、 和滑弧半径R有关,但在本质上体现了诸因素的影响而具有广泛适用性。