沿海软粘土取土质量的对比分析

本文在简要介绍固定活塞式薄壁取土器取土技术基础上，详尽分析了在连云港、赤湾港和广深路所进行的软粘土取土技术对比试验结果。试验结果表明，土样扰动对于室内所测定的力学性指标影响极大，但对物理性指标影响不大。研究结果还有力地证明，只要操作正确，采用薄壁取土器能取得高质量土样，而采用敞口式厚壁取土器取出的土样扰动较大。     

贵州石漠化地区降雨条件下红粘土剪切强度特性随含水量变化关系探讨

西南喀斯特地区的石漠化已经严重影响了人民正常的生产生活。水土流失是石漠化过程中一个关键环节。喀斯特地区地表广泛覆盖的红粘土在降雨条件下随着含水量的增加和人工垦殖的影响,剪切强度会产生变化,更易发生水土流失。本文以贵州普定石漠化研究区（陈旗村）的红粘土为例,以原状土模拟未经扰动的土样,以重塑土来模拟经过开垦被扰动后的土样,设计了原状土和重塑土在不同含水量下的直剪试验,初步地研究了这一变化规律。结果表明:在含水量大于35%时,石漠化地区红粘土粘聚力和内摩擦角均随着含水量的增加显著降低;在同一含水量水平下,原状土的抗剪强度明显优于重塑土,且随着含水量的增加,重塑土的强度衰减较之原状土快许多,表明了经过人工垦殖后的红粘土在降雨条件下更易发生水土流失。       

广西覆盖型岩溶区土层崩解机理研究

根据广西覆盖型岩溶区原状土样和扰动土样的室内试验结果, 研究土的崩解与土的矿物成分、化学成分、结构、颗粒大小、物理性质、含水状态和水的化学成分、水位变化等因素的关系。     

正常固结原状饱和黏性土的本构模型研究

基于扰动状态概念研究了正常固结饱和原状黏性土的本构模型。其中,相对完整状态采用基于原状黏性土的理想非线性弹性本构模型来表征;完全调整状态则是基于临界状态土力学框架,将修正剑桥模型与三剪强度准则相结合而建立的弹塑性本构模型来表征。为了更好地反映黏性土的黏聚力影响,提出了等量代换法和坐标平移法两种处理方法,并作了对比研究。针对基于临界状态土力学框架和扰动状态概念建立的原状土本构模型为平均应力、广义剪应力与体应变、广义剪应变间的关系且无屈服函数显式表达式,提出了一个将其三维化的方法。三维化后的原状黏性土本构模型为空间内6个应力分量和6个应变分量之间的关系,更便于复杂应力状态下的土体变形分析及有限元编程。为验证模型的正确性,对正常固结江西原状饱和红黏土土样作了固结排水和固结不排水条件下的常规三轴压缩试验和K0固结试验,并与模型计算结果作了对比,结果表明:所提模型能够较好地反映江西原状饱和红黏土的力学和变形特性。另外,用所提模型对江西原状饱和红黏土进行了真三轴压缩数值模拟实验,探讨了中间主应力对其力学和变形特性的影响,结果表明:中间主应力及其影响系数对土的变形、孔隙水压力、强度均有影响;固结不排水条件下,在相同剪应力的作用下,土体剪应变随中间主应力影响系数的增大而减小,在相同轴向应变条件下,孔隙水压力随中间主应力影响系数的增大而增大;固结排水条件下,在相同平均正应力作用下,土体体应变随中间主应力影响系数的增大而减小,在相同轴向应变条件下,土体体应变随中主应力影响系数的增大而增大。     

淮河大堤老应段土体蠕变特性研究及工程应用

本文依据工程需要, 采取淮河大堤老应段的原状和扰动土样, 在室内对堤体及堤基土的剪切蠕变和拉伸蠕变特性进行了试验研究。粘土的蠕变剪切强度远低于瞬时剪切强度, Ｃ∞值仅是Ｃ值的４０％左右;相同含水条件下粘土的长时抗拉强度大于瞬时抗拉强度, 长时拉伸应变量远大于瞬时拉伸应变量, 约为２倍。     

不同颗粒粒径重塑与原状膨胀岩物理力学性质变化规律研究

以南宁盆地膨胀岩为研究对象,通过室内试验测定原状样与不同颗粒粒径重塑样的膨胀力、抗剪强度及热特性,研究其性质差异。结果表明:重塑后不同粒径范围膨胀岩土样的无荷膨胀率较原状样明显升高,而主应力差峰值、抗剪强度和热物理指标较原状样均有降低。因此,应选择合适粒径范围的土颗粒重塑代替原状样进行室内试验:无荷膨胀率和膨胀力试验应选择粒径范围1 mmd 2 mm的土颗粒;三轴试验和热物理指标测试应尽量选择粒径较小的土颗粒。     

非饱和土中的饱和度的求解方法

探讨非饱和土的饱和度测量几种测量方法。由于非饱和土试验方法的不同,造成饱和度的测量的偏差。本文根据GDS的试验结果,对几种测量饱和度的方法进行比较和分析,指出假设土样颗粒体积不变,土样体积改变是因为土样孔隙大小的改变的合理性,认为直接法是一种有效的方法。     

THE VARIATIONS OF PHYSICAL AND MECHANICAL PROPERTIES OF REMODELING AND UNDISTURBED EXPANSIVE ROCKS OF DIFFERENT PARTICLE SIZES 1)

以南宁盆地膨胀岩为研究对象,通过室内试验测定原状样与不同颗粒粒径重塑样的膨胀力、抗剪强度及热特性,研究其性质差异。结果表明：重塑后不同粒径范围膨胀岩土样的无荷膨胀率较原状样明显升高,而主应力差峰值、抗剪强度和热物理指标较原状样均有降低。因此,应选择合适粒径范围的土颗粒重塑代替原状样进行室内试验：无荷膨胀率和膨胀力试验应选择粒径范围1 mm≤d<2 mm的土颗粒;三轴试验和热物理指标测试应尽量选择粒径较小的土颗粒。     

苏州阳澄湖地区淤泥质粘土工程地质特性探讨

苏州阳澄湖周围的沼积湖积平原存在一种性质较为特殊的淤泥质粘土,其亲水性粘土矿物含量和液塑限指标均较高,但在天然状态下虽具一定的胀缩性却未达到膨胀土的标准,可是经过扰动压实后,随着干密度的增大和含水量的减少却表现出较强的胀缩性,即转变为“人工膨胀土”[1]。本文通过苏州阳澄湖东北方向某一级公路附近3个取土场土样的试验分析,探讨了此地区这种淤泥质粘土的特殊性,为以后的工程施工提供了科学依据。     

PS溶液渗透对非饱和土的增强效应研究

特定模数硅酸钾溶液(PS)已广泛的用于我国西北干旱地区土遗址加固保护工程中,并且取得了显著的效果。但是PS对潮湿地区遗址土加固效果,目前尚缺乏成熟的理论和实验验证。本文从室内试验的资料出发,研究PS对潮湿地区土遗址非饱和土的增强效应。本次研究土样取自位于潮湿环境中的浙江杭州良渚土遗址(3000 B C.),在实验室内对高含水量(13％ ~25％)的重塑土样进行了PS渗透加固。通过研究对比加固前后重塑土样的固结特性和抗剪强度,发现 PS对潮湿地区遗址土也有一定的加固效果。加固效果随初始饱和度的不同而不同,但初始含水量达25%的土在PS作用下仍可能得到增强。经PS渗透的土样不仅提高了初始固结性能和抗剪强度,而且加固土样而且呈现出一定的弹脆性特征,呈现出塑脆性转化,表明PS渗透可能产生对土初始结构的稳固作用。这一探索研究将为扩大PS在土遗址加固保护工程的应用提供一定的理论支持。     

Numerical investigation on dynamic characteristics of drilling shaft in deep hole drilling influenced by minimal quantity lubrication

The dynamic characteristics of drilling shaft in deep hole drilling influenced by minimal quantity lubrication (MQL) is investigated. According to the features of the compressible fluid Reynolds equation in oil/air feature, a time-dependent mathematical model is established to describe the pressure distribution of cutting fluid with nonlinearity in MQL deep hole drilling. By introducing the differential transformation approach, the time-dependent pressure equation arising from cutting fluid is solved by the use of direct integral method. The influences of the rotational speed, the transverse displacement ratio, and radial clearance on the hydrodynamic pressure distribution of cutting fluid are obtained. The advantage of this method is to overcome much of the computational cost and has its rapid convergence rate. Furthermore, the nonlinear responses of drilling shaft influenced by MQL are analyzed, and the instability rotational speeds of drilling tool are discussed while the design parameters of drilling shaft system changing.     

Equivalent boundary model of lunar soil drilling simulation by DEM

Aiming to solve the computational cost problem in the discrete element simulation for lunar soil drilling sampling, an equivalent boundary method was proposed. A high-accuracy DEM model of lunar soil was established firstly. As the novel alterable constitutive law, the accuracy of the model was verified to meet the performance of real lunar soil very much both in shear strength indices and elastic–plastic behavior. A common drill bit in the geological exploration field for sampling soil was chosen as the simulation object. In preanalysis, it was known that with the increase of drilling depth, the stress concentration area was always near the drill bit, while the affected area of the lunar soil was a cylindrical area around the drill pipe, which extended towards the drilling direction instead of extending around it. Then a big boundary drilling simulation scene was established to investigate the flow direction of lunar soil particles. The motion law of particles and the velocity field information were obtained, and a U-shape chain was described around the drill bit. Finally an equivalent boundary was set near the U-shaped chain, and the size was determined by comparing the soil stress in the fierce collision zone and around the reference boundary. This method could be a reference for other lunar soil drilling researches with other drills of different sizes.     

甘肃引洮供水工程饱和黄土隧洞施工方法选择的工程地质研究

甘肃引洮供水一期工程总干渠13#、14#、15#隧洞围岩为al-lQ2饱和黄土,地下水位高于洞顶4³7m,饱和度一般在98%¹00%,水稳性很差。因此,该段隧洞施工方法的选择十分重要,从工程地质角度研究其工程特性,采用D rucker-Prager弹塑性模型、关联流动法则,模拟了传统钻爆法开挖时隧洞稳定性,计算表明,若采用钻爆法,由于围岩的岩性软弱,隧洞开挖后,在隧洞周围较大范围内存在应力降低区,隧洞位移十分迅速而且位移量非常大,洞顶下降发生塌方并引起地面沉降。从盾构法施工对地质条件的适应性分析,其施工风险相对较小,施工过程中可利用护盾很快封闭围岩,因此该段隧洞宜采用盾构法施工。     

基于大型炉体焊接残余应力测试的盲孔法研究

为提高炉体焊接残余应力测试精度,对传统的盲孔法进行改进,即在测点打孔后多次扩孔并增加孔深;通过对SM400ZL钢焊接残余应力测试时的应变释放系数A,B进行实验标定,得出多组应变释放系数值,计算可得残余应力的估算值,并对不同状况下的残余应力值进行比较.通过大拉力标定试验得出SM400ZL钢盲孔的孔边塑性变形对测量精度的影响和塑性修正公式.结果表明,改进的盲孔法能够更准确地测得焊接残余应力值,测量结果经塑性修正,最大误差减小到2%以下.测试方法和结果可直接在相关的工程实际中应用.     

深厚表土中煤矿立井非采动破裂的研究

本文介绍了近年来我国华东矿区深厚表土层中煤矿立井井壁非采动破裂的特点。分析了井壁破裂的工程地质条件，研究了井壁与土接触面上土─混凝土作用变形和强度参数，并将该接触面视为接触面单元，用弹塑性有限元法，模拟了深厚表土底部含水层失水时土与井壁的相互作用，得到了井壁附加应力随深度和含水层水头降的变化规律，分析了井壁稳定性，揭示了井壁破裂的内在机理。     

PROGRESS IN MEASUREMENT TECHNOLOGY FOR DRILL STRING VIBRATION

随着深井、超深井数量的快速增加, 钻柱振动导致的钻具失效问题更加突出. 针对钻柱振动的研究可分为理论与数值模拟、测量分析两种方法. 由于钻柱振动具有复杂的非线性特征, 使得理论与数值模拟研究受到了很大限制, 因此井下振动测量技术的研究显得尤为重要. 本文比较全面和系统地介绍了国内外钻柱振动测量技术研究现状和进展情况, 并对几个应用较为成熟的国外测量系统的工作原理、分析方法及应用技术进行了详细的综述. 所得结论可为我国井下振动测量技术的发展提供重要参考.     

Identification of the friction under high pressure between an aggregate material and steel: Experimental and modelling aspects

The interface behaviour between steel and a quasi-brittle aggregate material is characterised up to normal pressures of the magnitude of 100 MPa. This article presents a new test enabling the behaviour of the interface to be studied whilst retaining the sample’s integrity. The experimental configuration having been retained consists in sliding a cylindrical sample of the material inside a steel tube, said tube acting both as a sliding surface and containment ring. The sample is pushed on one side and faces a spring on the other. The axial compression generates the interface pressure by Poisson effect. This originality of this assembly lies in the simultaneous application of normal pressure to the interface and of its relative motion. The assembly is placed in a quasi-static testing machine. The analysis is made by means of an analytical modelling of the test. This method enables the identification of the initial contact conditions (tightening of the sample), the friction coefficient and its dependence on the pressure. Numerical simulations of the test using a finite element method enables the analytical approach to be validated as well as the set of parameters identified depending on the normal pressure regimes.     

Improvements in Residual Stress Measurement by the Incremental Centre Hole Drilling Technique

This paper presents results which advance and improve the usefulness, accuracy and efficiency of incremental centre hole drilling as a method of measuring near surface residual stress fields. Particular emphasis is placed on providing optimal values for the number of drilling step increments to be used and their corresponding size. Guidelines on the optimal values for the number and size of steps to use during measurements are presented for various ratios of hole radius to strain gauge rosette radius in the form of tabulated data. These guidelines are subsequently incorporated into a new data analysis program which permits very near surface residual stress fields to be accurately determined in real components. The benefits of the new approach are highlighted by reporting the results of measurements made on three industrial components, each of which has been subjected to a well-known engineering process. These components are a shot-peened spring-steel, a friction stir welded aluminium alloy, and a titanium alloy subjected to three different machining processes. The results reveal that the improvements to the incremental centre hole drilling technique can provide measured residual stresses from depths ranging from about 10 m to 1 mm.     

Evaluation of the High-Speed Drilling Technique for the Incremental Hole-Drilling Method

The incremental hole-drilling method is frequently used for residual stress depth distribution analyses, due to its fast and economical experimental execution. Depending on the planned use of the component, the drilled hole that is made to measure the residual stress can often be repaired or ignored if it does not affect the intended use of the part. Nevertheless an important experimental issue and assumption is the introduction of an ideal cylindrical hole into the component without additional plastic deformation. Although high-speed drilling is well established the consequences of the resulting hole geometries compared to ideal assumptions are not well known. Therefore, a detailed comparison between different bits and drilling techniques was carried out and is discussed in this paper in order to detect the best experimental conditions and to find out reasons especially for the lack of accuracy of the hole-drilling method for the first increments close to the specimens surface. It comes out that the orbital drilling with common used six-blade bits results in the best compromise of an ideal cylindrical hole and centricity to the center of the strain gage rosette. In the case of conventional drilling the hole geometry differs from the ideal one if six-blade bits were used due to the influence of chamfers at the cutting edges and a non 180° plane end face and also in the case of a two-blade bit due to a non 180° plane end face and the tendency to more eccentric holes. Diamond bits cannot be recommended under all tested conditions due to their geometrical undefined shape.     

Modeling and experimental investigation of drilling into lunar soils

Dry drilling only with the assistance of an auger is a reliable and realistic approach to remove abundant soils from the side of a bit in the harsh, dry conditions on the Moon. Based on an elementary analysis, using Janssen's model to reflect the coupling effect among the different components of the stress, the present paper models the conveying dynamics along the helical groove and the sampling mechanism in the centering hole of the stem for an auger drilling into lunar soil simulant. Combining the two parts as well as a simple cutting model for the bit, a whole drilling model is established to investigate the complicated relation among the conveying ability of the auger, the coring rate, and drilling parameters such as the penetration and rotation speeds. The relation is revealed by the complicated transition between different sub-models with the help of the physical transition conditions. A series of experiments with constant penetration and rotation speeds are conducted to verify the model. Three aspects of characteristics of the drilling dynamics are manifested,(i) the loads on the bit are almost independent of penetration;(ii) three obvious drilling stages with respect to cut per revolution are grouped;(iii) a linear relationship is found between the coring rate and the revolution per penetration.