虹湾东缘雁列式月岭构造带形貌特征与成因模式研究

月岭作为月海中一种广泛分布的线性构造,多表现为褶皱逆冲推覆为主的构造样式,且具雁列式展布。因此,月岭对月表区域乃至全月的构造应力分析有着非常重要的指示作用,但其成因机制不清。虹湾是中国嫦娥绕月探测工程研究的重点区域,区域内最明显的线性构造是虹湾东缘呈雁列式展布的月岭构造带,对这一月岭构造带的研究将有助于了解虹湾地区的区域应力特征和构造演化过程。文中通过对虹湾东缘雁列式月岭构造带的高分辨率影像进行解译并与其他区域对比分析,结合虹湾地区已有地质资料和前人提出的相关构造演化模式及目前最新的研究成果,认为虹湾东缘雁列式月岭构造带受虹湾撞击坑坑缘基底和表面玄武岩性影响,虹湾撞击盆地沉降引起的径向挤压应力和表面熔岩流导致的挤压应力由于方向与大小的差异,共同导致该月岭构造带呈类似走滑剪切中右阶左行的形貌特点。在此基础上讨论了此月岭构造带的演化过程,并根据月岭与撞击坑的交切关系,发现虹湾东缘月岭构造带在哥白尼纪仍在继续活动。     

An approach to determining the thicknesses of shear bands with an echelon‐crack structure

In this paper, the internal structure of shear band is investigated, and a model of the shear band with an echelon crack structure is developed. The model assumes the shear band to be composed of two conjugate sets of echelon cracks, such that the smaller echelon cracks are embedded in the space of the larger ones. The additional strain induced by the echelon cracks and the anisotropic development of the compliance tensor in the shear band zone are analyzed. The critical crack density at the onset of shear band is obtained by applying the bifurcation condition. Deviating from previous approaches, the new procedure evaluates the thickness of shear band based on the geometrical characteristics of echelon crack arrays and the failure probability of grain boundaries in the longitudinal direction at the onset of shear band. Parametric analysis shows that grain size, internal friction angle, dilation angle, and failure probability of grain boundaries are the dominant factors that account for the shear band thickness. The calculated results are consistent with the experimental data available in the literature. The model soundly explains that the measurements of the shear band thickness are generally scattered, ranging from 4 to 30 (or even more) times the grain size. Copyright © 2011 John Wiley & Sons, Ltd.     

剪应力作用下Ⅱ型平行节理扩展模式的分叉研究

利用伪力法考虑了剪应力作用下Ⅱ型平行节理之间的相互作用,提出利用节理的长度和间距之比, ,来确定平行裂纹发生分叉的条件。从理论上研究了2条,3条和任意多条平行节理在剪应力作用下的分叉。对于2条平行节理,当节理的长度和间距之比 大于0.816 497 5时,节理的扩展模式要发生分叉;对于3条平行节理,当节理的长度和间距之比 大于0.717 572 8时,节理的扩展模式要发生分叉;对于无穷多条平行节理,当节理的长度和间距之比 大于0.636 638 5时,节理的扩展模式要发生分叉。计算了2条到150条平行节理的分叉问题,结果表明节理数越大,节理发生分叉时节理的长度和间距之比越小。     

莺歌海盆地晚第三纪构造特征的三维泥料模拟实验及其动力学意义

莺歌海盆地是发育在古红河断裂带之上的新生代盆地，晚第三纪的构造运动触发了盆地中热流体自超压封存箱向外大规模突破，使热流体及泥质的活动具有规律性成群成带的特征。本次实验基于相似理论，在对盆地的演化史及区域构造应力场充分分析的基础上，进行了晚第三纪盆地构造应力场的三维泥料模拟，证实了红河断裂右旋走滑派生的拉分效应控制了莺歌海盆地晚第三纪的构造活动，而晚第三纪的构造活动又是雁列式断裂展布及底辟体分布的主导因素。     

单轴条件下层状盐岩的表面裂纹扩展分析

利用荧光法和细观分析技术对单轴条件下层状盐岩表面裂纹扩展及分布进行了研究,并简要分析了国内外盐岩物理力学性质的差异。试验结果表明：纯盐岩表面裂纹以盐晶粒间错动裂纹为主,晶间裂纹扩展贯通形成破坏性主裂纹,裂纹分布受盐晶粒大小及分布均匀性的影响,国外细晶粒盐岩的强度和变形能力均大于国内粗晶粒纯盐岩;纯夹层表面裂纹多产生在几种矿物交杂沉积处,裂纹分布由夹层矿物成分和组成结构决定;含夹层盐岩表面裂纹扩展分布受夹层与盐岩界面过渡形式影响,一般锯齿型交界面裂纹由盐岩部分主裂纹向夹层扩展而成,而过渡分明并含有薄泥层的交界面裂纹由盐岩部分主裂纹和泥层碎散型裂纹汇集扩展而成     

总干闸胸墙裂缝危害性及处理措施分析

采用特有的裂缝单元模拟裂缝和特殊的杆单元模拟混凝土中的骑缝筋,对某枢纽工程总干闸胸墙裂缝危害性及处理措施进行了数值仿真分析。分析结果显示,此分析模型能较好模拟裂缝在外荷载下的变形及混凝土中钢筋的受力状态,对混凝土裂缝处理与加固设计提出了一条量化分析方法。     

A mixed mode rock fracture model for the prediction of crack path

Crack propagation in rocks is simulated by using a displacement substitution method based on a mixed mode fracture criterion. The main advantage of this model is that it can distinguish between mode I and mode II stress intensity factors simultaneously. A typical finite element program is used to compute displacements adjacent to the crack tip. The maximum circumferential tensile stress is adopted as a ‘yield surface’ for the calculation of the load factor in each crack increment. Pure mode I and mixed mode examples have been analysed to validate the capability of the model. Copyright © 1999 John Wiley & Sons, Ltd.     

中国东部NWW向活动断裂带构造特征:以张家口-蓬莱断裂带为例

中国东部新构造期活动强烈,前人对该时期NE向构造已有很多研究,但NWW向构造研究程度较低.本文以张家口-蓬莱断裂带为例,从几何学、运动学、动力学及地震活动性四个方面对中国东部的NWW向活动断裂带进行了分析.结果表明,中国东部的NWW向活动断裂带具有左行走滑的运动性质,并控制了第四纪盆地左阶雁列的展布样式;NWW向活动断裂带是孕震断裂,诱发了多次地震活动.在动力学上,这些断裂带是扳缘的不同段落变形在板内不同块体间响应调节的产物,且在周边板块的联合作用下,华北和华南南部NWW向断裂可能印度-欧亚板块碰撞的影响占主导,而东北和华南东部NWW向断裂可能太平洋板块俯冲的影响占主导.     

南海西南部西纳土纳盆地中部走滑构造带分段性及对油气控制作用

为了研究南海西南部印度尼西亚纳土纳群岛西侧西纳土纳盆地走滑构造特征及对油气的控制作用,对研究区三维地震资料进行了精细分析,并结合切片和剖面特征对走滑构造进行了刻画。研究表明盆地中部中新世晚期发育北西向右旋走滑构造,由南东向北西,构造特征存在明显差异,根据其平面、剖面特征及活动强度分为东段、中段和西段。东段平面上为平直的、贯通的主干走滑断裂和雁列断层组,剖面上为花状构造;中段平面上为S型贯通的主干走滑断裂和雁列断层组,剖面上为花状构造;而西段平面上为雁列构造,没有贯通的主干走滑断裂,剖面上主要为断阶组合。推测走滑构造的分段性受走滑强度、断层几何形态和盖层厚度的影响,并对圈闭形成和油气运移、聚集具有明显的控制作用。     

A relationship between tensile strength and loading stress governing the onset of mode I crack propagation obtained via numerical investigations using a bonded particle model

Numerical models based on the discrete element method are used to study the fracturing process in brittle rock‐like materials under direct and indirect tension. The results demonstrate the capacity of the model to capture the essential characteristics of fracture including the onset of crack propagation, stable and unstable crack growth, arrest and reinitiation of fracturing, and crack branching. Simulations of Brazilian indirect tension tests serve to calibrate the numerical model, relating macroscopic tensile strength of specimens to their micromechanical breakage parameters. A second suite of simulations reveals a linear relationship between the tensile strength of specimens and the loading stress for which mode I tensile crack propagation ensues. Based on these results, a crack initiation criterion for brittle materials is proposed, prescribing the stressing conditions required to induce tensile failure. Such a criterion, if broadly applicable, provides a practical means to rapidly assess the failure potential of brittle materials under tensile loads.     

Implementation of a coupled plastic damage distinct lattice spring model for dynamic crack propagation in geomaterials

This paper studies dynamic crack propagation by employing the distinct lattice spring model (DLSM) and 3‐dimensional (3D) printing technique. A damage‐plasticity model was developed and implemented in a 2D DLSM. Applicability of the damage‐plasticity DLSM was verified against analytical elastic solutions and experimental results for crack propagation. As a physical analogy, dynamic fracturing tests were conducted on 3D printed specimens using the split Hopkinson pressure bar. The dynamic stress intensity factors were recorded, and crack paths were captured by a high‐speed camera. A parametric study was conducted to find the influences of the parameters on cracking behaviors, including initial and peak fracture toughness, crack speed, and crack patterns. Finally, selection of parameters for the damage‐plasticity model was determined through the comparison of numerical predictions and the experimentally observed cracking features.     

无限域横观各向同性岩体介质中折线裂纹边界元方法

岩体材料的各向异性导致其中的光滑裂纹在扩展后会变为折线裂纹。对于折线裂纹,其折线处裂纹面外法线方向不惟一,不能用连续单元离散。为此,在光滑裂纹问题方法的基础上,引入4种新的不连续单元来离散折线处裂纹面,建立了适用于折线裂纹问题的对偶边界元方法,该方法基于横观各向同性基本解。算例验证表明,该方法具有较好的精度。最后用该方法分析了横观各向同性岩体中的折线裂纹,得到了该类裂纹的应力强度因子。当裂纹面上作用法向均布力,横观各向同性岩体介质中的矩形光滑裂纹发生弯折时,折线两侧的裂纹面在张开时存在抑制效应,从而导致折线裂纹裂尖应力强度因子小于原光滑裂纹。同时还发现,随裂纹面的逐渐弯折,其裂纹面对各向同性面的倾角发生变化,因此,其裂尖断裂特性还受到岩体各向异性的影响。     

成像测井在大民屯凹陷基底变质岩裂缝性有利储集层段判别中的应用

文章依据岩心、薄片、FMI成像测井资料对大民屯凹陷太古宇储集岩岩性及有利储集层段进行了分析研究,不仅从岩石成分角度分析了变质岩的主要储集岩岩性,还在应用成像测井识别裂缝及碎裂段的基础上结合常规测井解析了裂缝性油藏的有利储集层段。研究结果表明,大民屯凹陷太古宇变质岩储集层岩性以混合花岗岩为主,混合花岗岩的碎裂段是良好的流体渗流通道,但不易储集油气,而在碎裂段上部及下部的裂缝发育段则是油气的有利储集层段。     

青藏铁路沿线地表和路基表面热力学模式（Ⅱ）：无云大气条件下模拟试验结果分析

冻土层的变化与地-气交接面的能量交换过程有直接的联系，地-气交接面的能量交换过程包含了辐射、对流、热传导三种最基本的热物理过程，利用以此为基础建立的青藏铁路沿线地表和路基表面热力学数值模式(RSTM)，将安多站的实测资料作为模式输入，针对梯形路基与边坡朝向和坡度有关的坡面温度变化及两侧坡面温差变化的问题，对无云大气条件下不同坡度和坡向的表面温度变化特征进行了模拟分析，结果表明，对于就地取土修筑的路基而言，安多段路基上表面温度在各季节都高于气温。在夏季具有明显的高表面温度值，尽管在夏季任何坡度和坡向的路基坡面都具有冷却效应，但路基仍处于高温状态；冬季路基上表面温度虽略低于0℃，但路基偏南方向坡面的强烈增温效应，使南坡表面温度远远超过冻土融化温度的临界状态，而路基两侧坡面热效应的相反作用，通过影响冻土层的冻融过程，可能引起路基纵向裂缝的发生。因此，对冻土路基采取有效的防护措施是非常必要的，用实测资料进行的检验表明，RSTM具有良好的模拟性能，对不同防护措施下青藏铁路路基热状况的预测具有良好的应用前景。     

爆炸应力波作用下缺陷介质裂纹扩展的动态分析

采用透射式焦散线测试系统,进行爆炸应力波作用下缺陷介质裂纹扩展试验,研究了含与炮孔共线的预制裂隙介质裂纹扩展速度、加速度、裂纹尖端动态应力强度因子和动态能量释放率的变化规律以及它们之间的变化关系。试验结果表明,在爆炸应力波作用下裂隙两端产生了两条翼裂纹A、B,翼裂纹A的长度较翼裂纹B长,两条翼裂纹向相反的方向扩展;在翼裂纹扩展过程中,存在着加速与减速的过程,扩展速度瞬间达到峰值,其后逐渐振荡下降;动态应力强度因子也呈现瞬间达最大值到逐渐减小连续振荡变化的趋势,动态应力强度因子 > ;翼裂纹尖端的动态能量释放率对裂纹扩展具有驱动作用。     

昆明呈贡石灰岩上覆红黏土干缩裂隙的温度效应

温度是影响土体干缩开裂的重要外部环境因素之一。为研究温度对红黏土干缩裂隙的影响,以昆明呈贡石灰岩上覆红黏土为对象,经风干、碾碎和筛分后,选取2 mm以下的细颗粒,用正方形钢化玻璃容器制备9个厚度为10 mm的饱和泥浆样,分成3组,每组3个平行样,利用控温烘箱分别进行30℃、50℃和70℃的干燥试验,试验过程中定时称重试样和对土样表面进行拍照,然后用PCAS软件对照片进行图像处理。结果表明：红黏土的蒸发过程可分为3个阶段,干缩裂隙的形成和发展可分为5个阶段;温度升高,干燥完成时间减短,常速率阶段的蒸发速率和蒸发量增大,最终含水率降低;初始临界含水率随温度升高而增大;随着土体含水率持续减小,表面裂隙率先缓慢增加,然后快速增大,最后趋于稳定;温度升高,裂隙交点数、裂隙条数、裂隙总长度和土块数减少,裂隙平均长度、裂隙平均宽度、表面裂隙率、土块平均面积、土块最大面积、干缩厚度和干密度增大。温度显著影响红黏土的水分蒸发过程,干缩裂隙的形成和发展,以及表面裂隙结构和形态。     

青藏铁路邻侧昆仑山2001年Ms8．1级地震地表破裂特征分析

青藏铁路邻侧的地震地表破裂调查显示昆仑山2001年8．1级地震地表破裂明显呈水平左旋走滑性质，地震破裂带主要由NE向的张裂和NW向地震鼓包呈之字型沿昆仑山口断裂线性分布构成。青藏公路邻侧的地震破裂的实际左旋位移量为4．3～4．81m。地震的强烈破坏主要集中在地震破裂带上，在青藏公路附近见其影响范围可延至破裂带南北两侧10～50km范围内。     

Hydro‐mechanical modeling of cohesive crack propagation in multiphase porous media using the extended finite element method

In this paper, a numerical model is developed for the fully coupled hydro‐mechanical analysis of deformable, progressively fracturing porous media interacting with the flow of two immiscible, compressible wetting and non‐wetting pore fluids, in which the coupling between various processes is taken into account. The governing equations involving the coupled solid skeleton deformation and two‐phase fluid flow in partially saturated porous media including cohesive cracks are derived within the framework of the generalized Biot theory. The fluid flow within the crack is simulated using the Darcy law in which the permeability variation with porosity because of the cracking of the solid skeleton is accounted. The cohesive crack model is integrated into the numerical modeling by means of which the nonlinear fracture processes occurring along the fracture process zone are simulated. The solid phase displacement, the wetting phase pressure and the capillary pressure are taken as the primary variables of the three‐phase formulation. The other variables are incorporated into the model via the experimentally determined functions, which specify the relationship between the hydraulic properties of the fracturing porous medium, that is saturation, permeability and capillary pressure. The spatial discretization is implemented by employing the extended finite element method, and the time domain discretization is performed using the generalized Newmark scheme to derive the final system of fully coupled nonlinear equations of the hydro‐mechanical problem. It is illustrated that by allowing for the interaction between various processes, that is the solid skeleton deformation, the wetting and the non‐wetting pore fluid flow and the cohesive crack propagation, the effect of the presence of the geomechanical discontinuity can be completely captured. Copyright © 2012 John Wiley & Sons, Ltd.     

The significance of magmatic erosion for bifurcation of UG1 chromitite layers in the Bushveld Complex

One of the most puzzling features of the UG1 chromitite layers in the famous exposures at Dwars River, Eastern Bushveld Complex, is the bifurcation, i.e. convergence and divergence of layers along strike that isolate lenses of anorthosite. The bifurcations have been variously interpreted as resulting from: (1) the intermittent accumulation of plagioclase on the chamber floor as lenses, terminated by crystallization of continuous chromitite layers (the depositional model); (2) late-stage injections of chromite mush or chromite-saturated melt along anastomosing fractures that dismembered semi-consolidated plagioclase cumulates (the intrusive model); (3) post-depositional deformation of alternating plagioclase and chromite cumulates, resulting in local amalgamation of chromitite layers and anorthosite lenses that wedge out laterally (the deformational model). None of these hypotheses account satisfactorily for the following field observations: (a) wavy and scalloped contacts between anorthosite and chromitite layers; (b) abrupt lateral terminations of thin anorthosite layers within chromitite; (c) in situ anorthosite inclusions with highly irregular contacts and delicate wispy tails within chromitite; many of these inclusions are contiguous with footwall and hanging wall cumulates; (d) transported anorthosite fragments enclosed by chromitite; (e) disrupted anorthosite and chromitite layers overlain by planar chromitite; (f) protrusions of chromitite into underlying anorthosite; (g) merging of chromitite layers around anorthosite domes. We propose a novel hypothesis that envisages basal flows of new dense and superheated magma that resulted in intense thermo-chemical erosion of the temporary floor of the chamber. The melting and dissolution of anorthosite was patchy and commonly inhibited by chromitite layers, resulting in lens-like remnants of anorthosite resting on continuous layers of chromitite. On cooling, the magma crystallized chromite on the irregular chamber floor, draping the remnants of anorthosite and merging with pre-existing chromitite layers excavated by erosion. With further cooling, the magma crystallized chromite-bearing anorthosite. Emplacement of multiple pulses of magma led to repetition of this sequence of events, resulting in a complex package of anorthosite lenses and bifurcating chromitite layers. This hypothesis is the most satisfactory explanation for most of the features of this enigmatic igneous layering in the Bushveld Complex.