泥化弱胶结软岩地层中矩形巷道的变形破坏过程分析

在西部地区,一定数量的矿区处于泥化弱胶结软岩地层,此类软岩胶结性差、强度低、遇水泥化。矩形是采区巷道的常用型式,但其断面受力不均、稳定性差。在上述软岩地层中的矩形巷道承载力低、变形量大、变形持续时间长,给煤矿的安全生产带来极大困难。以内蒙古新上海一号煤矿皮带顺槽矩形巷道为背景,运用FLAC3D软件中的Cvisc黏弹塑性模型,对矩形巷道的变形破坏进行了数值模拟,并将模拟结果与现场监测结果对比分析。结果表明:巷道开挖支护后,受断面形状影响,矩形巷道四角出现压应力集中和顶板受拉区,巷道顶板下沉量大,底板底臌严重,两帮向巷道挤出;受围岩岩性影响,围岩进入塑性的时间快短、范围大,塑性区超出了支护体的作用范围,造成锚杆(索)的锚固效果难以完全发挥,围岩出现整体滑动的现象;巷道变形呈现出流变变形的特性,变形量随时间持续增加,持续的蠕变变形超出了支护体的可控范围,最终引起巷道的失稳破坏。     

超浅覆土大断面矩形顶管近距离双线施工地表沉降规律及加固效果评价

矩形顶管施工过程中会对周围土体造成扰动,引起地表产生竖向变形。为研究超浅覆土顶管施工过程中的地表沉降规律,以深圳市某下穿道路矩形顶管工程为背景,使用PLAXIS 3D软件对顶管双线施工进行有限元模拟。首先将模拟结果与实测结果对比以验证模拟结果的合理性,然后分析双线施工地表沉降变化规律,最后对现场加固措施进行评价。主要结论如下：未加固时顶管顶进过程中,最大沉降量位于始发端,最大隆起量位于接收端;加固后地表沉降最大值点及沉降最大值均发生了改变：加固后地表最大沉降值点由始发井改变为顶管中部区域,最大沉降值减少了6.15 mm,表明现场加固方案效果显著;未加固和加固后地表沉降纵向曲线规律基本一致,表现为三个阶段：隆起期、快速沉降期和沉降稳定期;未加固和加固后地表横向沉降槽变化情况基本一致。     

Stability of eccentrically loaded footings on slopes

The stability of eccentrically loaded strip footings on slopes was investigated using the method of finite element analysis based on the theory of elasto-plasticity. The analysis was done for two different soils involving three levels of slope angle, six footing locations, and two levels of load eccentricity plus central vertical loading. The strip footing analysed was a 3-ft (0.9 m) wide reinforced concrete footing embedded to a depth of 3 ft (0.9 m). The analysis focused on footing settlement, plastic yielding of soil, and ultimate bearing capacity. The results of analysis show that the influence of load eccentricity on footing pressure vs. footing centre settlement is negligibly small. However, the progressive soil yielding and ultimate bearing capacity are greatly affected by load eccentricity. Furthermore, the effect of load eccentricity differs considerably with the load location relative to the footing centre and slope crest. The ultimate bearing capacity for the eccentric load located on the slope side is significantly greater than that for the load located on the other side of the footing centre. For a 2(H): 1(V) slope in silty clay, the effect of slope on footing stability decreases with increasing footing location from slope crest as would be expected, and diminishes when the footing is located from the crest at about 5-times the footing width.     

Performance of square footing with structural skirt resting on sand

The paper presents the performance of a square footing with a structural skirt resting on sand and subjected to a vertical load through an experimental study. A series of tests were conducted in a model test tank to evaluate the performance in terms of improvement in bearing capacity and reduction in settlement of a square footing with and without a structural skirt. The results of the study reveal that this type of reinforcement increases the bearing capacity, reduces the settlement and modifies the load settlement behaviour of the footing. The various factors influencing the bearing capacity improvements and settlement reduction using a structural skirt are identified. Skirt factors are proposed which can be introduced into the general ultimate bearing capacity equation for a square footing resting on sand. The predictions made through the modified equation are in reasonable agreement with the experimental results. The bearing capacity of square footing is increased in the range of 11.2 to 70%. The improvement in bearing capacity decreases with the increase in base roughness of the footing. Further, an equation for a settlement reduction factor is proposed which can be used to calculate the settlement of the square footing with structural skirt resting on sand. The settlement reduction factor (SRF, defined as the ratio of settlement of footing with structural skirt to the settlement of footing without structural skirt at a given load) was in the range 0.11 to 1.0 depending on applied load and skirt depth ratio with the use of a structural skirt. The results further reveal that for a given depth of the skirt, the settlement reduction factor decreases with the increase in applied load. The improvement in the bearing capacity and reduction in settlement of a square footing with a structural skirt resting on sand are dependent on the geometrical and structural properties of the skirt, footing, sand characteristics and interface conditions of the sand–skirt–footing system.     

大地高误差对坐标系转换精度的影响

卫星大地测量直接获取地面点的三维坐标,解决了传统作业中平面和高程分开建网的问题。但获得的三维坐标基于全球大地坐标框架(WGS84或IRTF),不能直接应用于实际的工程项目中,需要通过椭球变换实现坐标系转换。由于基于本地坐标框架(局部椭球)的大地高较难得到,椭球变换参数只能近似求得。分析大地高误差对坐标系转换精度的影响,并用实例证实此影响在局部范围内是可以忽略的。     

拉顶结合新型矩形掘进机的研制及其应用

介绍了一种适用于微型工作井并采用拉顶式工艺施工的新型矩形掘进机的设计思路和设计方法及其主要的技术参数。新型矩形掘进机与掘进系统的拉进动力配合,解决了常规矩形顶管施工中的机头在轴线办向的倾偏及后退问题;机头采用多刀盘设计,各刀盘可以实现正反转,且转速可任意调节,有效降低了机头的偏转;而采用了辅助的纠偏装置,使新型掘进机在只有顶进动力的情况下也能实现正常的顶进施工。对在复杂环境条件下,改造、提升原有的掘进机性能具有重要的参考意义。     

上拔扩底基础与地基土体承载特性差异性分析

工程中多采用基础上拔静载试验中基础顶部荷载-位移曲线获取基础的承载力,忽略了基础周围土体的变形破坏过程,而实际工程中均是基础周围地基土体发生破坏。为研究扩底基础与其周围土体在抗拔承载特性方面的差异,以黄土地基中的9个扩底基础为研究对象,通过现场全尺寸基础的上拔静载试验,分别获得基础顶部与地表的上拔荷载-位移曲线,并进一步对基顶与地表处的荷载-位移曲线变化特征、抗拔承载力取值进行对比分析。结果表明,两处的荷载-位移曲线变化特征相似,相同上拔荷载作用下地表处的位移量均小于基础处位移量,差异以初始弹性阶段变形最为突出;两者在弹性极限荷载QL1取值方面,相差较大,但随着地基基础由弹性向塑性发展,差异逐渐减小,两者塑性极限荷载QL2取值基本相同。结合上拔扩底基础的破坏模式,分析出上述差异主要由于基础与周围土体之间变形不协调所致,加载初期基础顶部的上拔位移包括基础拔出量和上部土体压缩量,当上部土体压密后压缩变形消失,地基基础成为一个整体,上拔基础与周围土体的变形趋于协调。     

Approximate calculation of oblique wave transmission from a single-row of rectangular piles

Transmissions of oblique incident wave from a row of rectangular piles are analyzed theoretically. The incident angle of plane wave is taken as , there then is the transmission coefficient (This is a paradox). In this paper, by means of the approximate relation between the transmitted and incident wave angle found from the shape of a slit, the paradoxical phenomenon is removed. On the basis of the continuality of the pressure and flux and the analysis of flow resistance at the row of rectangular piles, formulas of reflection and transmission coefficients are obtained. The transmission and reflection coefficients predicted by the present model quite agree with those of laboratory experiments in previous references     

Effects of perforated baffle on reducing sloshing in rectangular tank: Experimental and numerical study

A liquid sloshing experimental rig driven by a wave-maker is designed and built to study liquid sloshing problems in a rectangular liquid tank with perforated baffle. A series of experiments are conducted in this experimental rig to estimate the free surface fluctuation and pressure distribution by changing external excitation frequency of the shaking table. An in-house CFD code is also used in this study to simulate the liquid sloshing in three-dimensional （3D） rectangular tank with perforated baffle. Good agreements of free surface elevation and pressure between the numerical results and the experimental data are obtained and presented. Spectral analysis of the time history of free surface elevation is conducted by using the fast Fourier transformation.     

竖向荷载下矩形闭合地下连续墙桥梁基础群墙效应研究

矩形闭合地下连续墙基础（简称闭合墙基础）是一种新型的桥梁基础。通过室内模型试验,对闭合墙基础的群墙效率、沉降比等进行了研究,同时探讨了闭合墙墙间距（即内侧边长）对群墙效应的影响。试验中采用了2组不同截面尺寸的模型墙,其中A组模型墙边长小于B组模型墙,墙厚和墙高均相同。试验研究表明,闭合墙与单片墙在相同沉降下的荷载比一般都大于1,B组闭合墙荷载比和群墙效率均大于A组闭合墙;闭合墙与单片墙在相同墙顶应力下的位移比和沉降比基本都大于1,A组闭合墙位移比大于B组闭合墙。在保持墙厚和墙高不变的情况下,适当增大闭合墙基础的内侧边长可以有效地提高群墙效率和承载性能,从而获得更好的经济效益。