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1.
Most classical approaches for evaluating the stability of soil slopes with cracks are performed under two-dimensional (2D) condition. Three-dimensional (3D) effect and suction-induced effect of unsaturated soils are generally neglected in assessing the slope stability. This paper develops a 3D limit analysis method to evaluate the stability of an unsaturated soil slope with tension cracks under steady infiltrations. The boundary-value problem is formulated based on the 3D rotational failure mechanism by taking the effects of suction, effective unit weight, and tension crack into account. A simplified method is proposed to calculate the work rate of unsaturated soil weight. A layer-wise summation method is developed based on the divergence theorem to calculate the internal energy dissipation rate. Detailed discussions are conducted to investigate the effects of suction and Poisson's ratio on the stability of unsaturated soil slopes. Examples are given to illustrate the 3D effect, the suction-induced effect as well as the effects of infiltration and water in cracks on the slope stability. 相似文献
2.
利用三维地质模拟技术重构地质现象的三维空间分布,是实现自然资源管理和风险评估的重要基础和前提。多点统计学方法通过探寻多点间的空间结构关系,结合随机模拟方法生成具有差异性的模拟结果,较好地再现了复杂的地质现象。然而,如何构建合适、有效的训练图像一直是基于多点统计学三维地质模拟的核心问题。本文提出了一种改进的多点统计学算法。本方法结合了序贯模拟和迭代的方法,将二维剖面扩展为三维训练图像,再结合EM-Like算法,实现了三维地质结构的优化模拟。建模实例结果表明,本方法能确保训练图像对内部模拟网格的约束,准确模拟研究区的地层层序,并很好地再现二维地质剖面所反映的地层结构关系。 相似文献
3.
Mingyue Lu Min Chen Xinhao Wang Manzhu Yu Yongyao Jiang Chaowei Yang 《Environmental Earth Sciences》2018,77(24):804
Weather radar data, which have obvious spatial characteristics, represent an important and essential data source for weather identification and prediction, and the multi-dimensional visualization and analysis of such data in a three-dimensional (3D) environment are important strategies for meteorological assessments of potentially disastrous weather. The previous studies have generally used regular 3D raster grids as a basic structure to represent radar data and reconstruct convective clouds. However, conducting weather radar data analyses based on regular 3D raster grids is time-consuming and inefficient, because such analyses involve considerable amounts of tedious data interpolation, and they cannot be used to address real-time situations or provide rapid-response solutions. Therefore, a new 3D modelling strategy that can be used to efficiently represent and analyse radar data is proposed in this article. According to the mode by which the radar data are obtained, the proposed 3D modelling strategy organizes the radar data using logical objects entitled radar-point, radar-line, radar-sector, and radar-cluster objects. In these logical objects, the radar point is the basic object that carries the real radar data unit detected from the radar scan, and the radar-line, radar-sector, and radar-cluster objects organize the radar-point collection in different spatial levels that are consistent with the intrinsic spatial structure of the radar scan. Radar points can be regarded as spatial points, and their spatial structure can support logical objects; thus, the radar points can be flexibly connected to construct continuous surface data with quads and volume data with hexahedron cells without additional tedious data interpolation. This model can be used to conduct corresponding operations, such as extracting an isosurface with the marching cube method and a radar profile with a designed sectioning algorithm to represent the outer and inner structure of a convective cloud. Finally, a case study is provided to verify that the proposed 3D modelling strategy has a better performance in radar data analysis and can intuitively and effectively represent the 3D structure of convective clouds. 相似文献
4.
The prediction of active earth pressure was generally implemented under the assumptions of two-dimensional conditions and cohesionless soils. However, in practice, the soils usually display a considerable level of cohesion, and the collapse of retained slopes exhibits a three-dimensional (3D) nature. Considering this fact, this paper intends to predict the 3D active earth pressure in cohesive soils based on the kinematic limit-analysis method and a 3D rotational collapse mechanism. The influence of cracks is considered, including a crack forming before the failure of retained soil masses (open crack) and a crack forming simultaneously with the failure (formation crack). The active earth pressure coefficient is estimated based on the work-energy balance principle. In order to facilitate direct application, several design charts are provided. It is shown that accounting for soil cohesion and 3D effects results in a notable decrease in the active earth pressure, whereas considering the existence of cracks would increase the pressure value. This paper develops the studies on active earth pressure, which considers the presence of cohesion, cracks, and 3D effects together for the first time. The results of this paper can offer references in designs of retaining structures for cohesive slopes.
相似文献5.
一种基于似三棱柱体元的地质三维建模方法研究 总被引:4,自引:0,他引:4
三堆空间建模方法是三堆地劫工程GIS研究的核心问题之一。提出一种基于似三棱柱体元的三堆数据模型,模型包含顶点、线段(棱边、三角形边)、三角形、侧面四边形、三棱柱体元5个基本元素。和点对象、线对象、面对象、体对象、复杂对象、空间对象等6个对象。设计了5个基本元素和3种地质对象的数据结构和它们之间的拓扑关系。以岩体和巷道为例。给出了似三棱柱体建模思路和算法。利用内蒙古某矿区实际钻孔资料和模拟巷道数据对所开发的系统原型进行验证。研究表明。基于似三棱柱体元的数据模型的优势在于可以表示空间对象的表面和内部结构。便于建模和节省存储空间,同时便于不规劓的自然地质体和规则勘探工程建模。 相似文献
6.
基于3D MAX的矿体三维立体形态研究 总被引:2,自引:0,他引:2
以小西南岔铜金矿北山矿段Ⅰ-Ⅱ号脉系金、铜矿体为例,提出按品位分级的研究方法,探讨其形态特征和空间赋存规律,进而将矿体细分为矿饼微元,由此建立北山矿段金、铜矿体的三维立体形态模型。从而得出如下结论:(1)使用3D MAX软件将矿体形态可视化,方法简单易行,便于指导矿山管理、设计和生产;(2)提出品位分级形态的概念,有利于人们更好地认识矿体在空间的展布形态和分布规律,为解决矿体随时间等因素变化提出了一种新的研究思路;(3)对分段富集规律有了新的认识,将其应用范围从平面域扩展到空间领域,进而更好地预测隐伏矿体。 相似文献
7.
完全3维弹性波数值模拟计算时间长,并且占用庞大的计算资源,这不利于在计算机配置不高的情况下进行科学研究,而二维弹性波数值模拟又达不到三维模拟的精度;同时,当模型、波场空间分布比较复杂时,传统的3维波动方程拟谱法模拟结果比较差.因此,在较高数值精度的一阶应力-速度弹性波动方程的基础上,采用傅氏变换仅计算y方向的偏导数,利用有限差分方法计算x、z方向和时间的偏导数,即利用2.5维数值模拟方法,实现在二维介质中计算三维弹性波场.最后通过数值模拟实现了在各向异性介质中多波波场的数值模拟,验证了2.5维方法是一种高精度、高效率、且能适应复杂模型的正演模拟方法,通过波场分析进一步认识了波在各向异性介质中的传播规律. 相似文献
8.
一种面向对象的三维地下空间矢量数据模型 总被引:1,自引:0,他引:1
针对地下空间的真三维连续特性以及建模过程的动态交互编辑与分析要求,提出了一种新的三维地下空间矢量数据模型。该模型采用面向对象思想对地下各种空间对象进行抽象描述;利用模型中的线段要素增强几何元素之间拓扑连接关系的维持,为地质体的切割和地下工程体的开挖等分析提供了算法上的便利;引入拓扑面更好地表达了地下空间对象之间的拓扑邻接关系。该模型在三维地下空间数据的存储管理、查询分析以及实时逼真绘制等方面都表现出较好的性能,适用于地下勘探工程的建模与分析。 相似文献
9.
Evaluating differences in spatial visual attention in wayfinding strategy when using 2D and 3D electronic maps 总被引:1,自引:0,他引:1
With the evolution of mapping technology, electronic maps are gradually evolving from traditional 2D formats, and increasingly using a 3D format to represent environmental features. However, these two types of spatial maps might produce different visual attention modes, leading to different spatial wayfinding (or searching) decisions. This study designs a search task for a spatial object to demonstrate whether different types of spatial maps indeed produce different visual attention and decision making. We use eye tracking technology to record the content of visual attention for 44 test subjects with normal eyesight when looking at 2D and 3D maps. The two types of maps have the same scope, but their contents differ in terms of composition, material, and visual observation angle. We use a t test statistical model to analyze differences in indices of eye movement, applying spatial autocorrelation to analyze the aggregation of fixation points and the strength of aggregation. The results show that aside from seek time, there are significant differences between 2D and 3D electronic maps in terms of fixation time and saccade amplitude. This study uses a spatial autocorrelation model to analyze the aggregation of the spatial distribution of fixation points. The results show that in the 2D electronic map the spatial clustering of fixation points occurs in a range of around 12° from the center, and is accompanied by a shorter viewing time and larger saccade amplitude. In the 3D electronic map, the spatial clustering of fixation points occurs in a range of around 9° from the center, and is accompanied by a longer viewing time and smaller saccadic amplitude. The two statistical tests shown above demonstrate that 2D and 3D electronic maps produce different viewing behaviors. The 2D electronic map is more likely to produce fast browsing behavior, which uses rapid eye movements to piece together preliminary information about the overall environment. This enables basic information about the environment to be obtained quickly, but at the cost of the level of detail of the information obtained. However, in the 3D electronic map, more focused browsing occurs. Longer fixations enable the user to gather detailed information from points of interest on the map, and thereby obtain more information about the environment (such as material, color, and depth) and determine the interaction between people and the environment. However, this mode requires a longer viewing time and greater use of directed attention, and therefore may not be conducive to use over a longer period of time. After summarizing the above research findings, the study suggests that future electronic maps can consider combining 2D and 3D modes to simultaneously display electronic map content. Such a mixed viewing mode can provide a more effective viewing interface for human–machine interaction in cyberspace. 相似文献
10.
在实际应用中,即使是建立较为简单的不规则准三维模型,FLAC3D也存在一定难度,因此,提出了一种快速建立FLAC3D准三维模型的方法,即基于数字图像像素单元的位置属性建立FLAC3D准三维模型,并根据像素单元的颜色属性对所建立模型进行分组,以便实现对模型单元赋予不同属性材料或者建立不同功能模块(如开挖、回填)。借助上述思想,采用Visual Basic语言编写了IMAGE-FLAC3D接口程序,实现了FLAC3D软件建模的直观、快速和自动化。通过建立土石混合体有限差分模型和库岸滑坡有限差分模型,检验了该方法及程序的有效性和可行性。在此基础上,借助强度折减法对所建立库岸滑坡模型进行稳定性分析,分析结果与极限平衡法所得结果相近,说明了所建模型的可计算性。该方法可作为数字图像服务于岩土工程的典型范例。 相似文献
11.
三维地质模型构建方法的研究及应用 总被引:25,自引:3,他引:22
地质体三维建模是地学信息系统的核心问题之一.对三维GIS及地学领域的空间构模方法的现状进行分析,结合地质体工程特点,提出一种三维地学空间构模方法--似三棱柱(STP)法.该方法以似三棱柱体作为三维地质体建模的基本体元,并采用5类基本元素和6组拓扑关系对似三棱柱体的数据结构进行描述.它能有效地表达各种三维地质现象,也可以更好地与传统的多层TIN模型结合,维护好空间实体的拓扑关系.基于本文的建模方法开发了一个适合地质领域的三维GIS初步原型,并用实际钻孔数据进行了验证. 相似文献
12.
Because of the simplicity and the speed of execution, methods used in static stability analyses have yet remained relevant. The key‐block method, which is the most famous of them, is used for the stability analysis of fractured rock masses. The KBM method is just based on finding key blocks, and if no such blocks are found to be unstable, it is concluded that the whole of the rock mass is stable. Literally, though groups of ‘stable’ blocks are taken together into account, in some cases, it may prove to be unstable. An iterative and progressive stability analysis of the discontinuous rock slopes can be performed using the key‐group method, in which groups of collapsible blocks are combined. This method is literally a two‐dimensional (2D) limit equilibrium approach. Because of the normally conservational results of 2D analysis, a three‐dimensional (3D) analysis seems to be necessary. In this paper, the 2D key‐group method is developed into three dimensions so that a more literal analysis of a fractured rock mass can be performed. Using Mathematica software, a computer program was prepared to implement the proposed methodology on a real case. Then, in order to assess the proposed 3D procedure, its implementation results are compared with the outcomes of the 2D key‐group method. Finally, tectonic block No.2 of Choghart open pit mine was investigated as a case study using the proposed 3D methodology. Results of the comparison revealed that the outcomes of the 3D analysis of this block conform to the reality and the results of 2D analysis. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
13.
实际岩土工程中经常遇到高温环境,研究3D打印岩体试样在高温作用后的力学性能对促进3D打印技术在工程领域的应用具有重要意义。以GS19砂和呋喃树脂作为打印基材,运用3D打印技术制备内部结构高度一致的岩体试样,研究不同温度作用后3D打印岩体试样的力学性能,结合电镜扫描试验从微观层面上分析不同温度作用后3D打印岩体试样力学性能产生变化的原因。提出了3D打印岩体试样的最优力学温度,并研究了含预制裂隙的3D打印岩体试样在最优力学温度作用后的破坏特征。研究表明:3D打印岩体试样的单轴抗压强度与劈裂抗拉强度随温度的不断升高均呈现先增大后降低的规律,最优力学温度为150 ℃;在最优力学温度作用后,含不同倾角预制裂隙的3D打印岩体试样的破坏过程包含压密、微裂纹萌生、裂纹稳定扩展、贯通破坏4个阶段,裂纹的初始萌生位置均出现在预制裂隙处但随着预制裂隙倾角的变化而有所不同,扩展路径总是趋向于荷载加载的方向并大致呈中心对称形式。 相似文献
14.
This work addresses an enrichment technique for the three-dimensional (3D) finite element (FE) analysis of a vertical drain foundation because (1) 1D and 2D simulations are insufficient to integrally describe the consolidation behaviour and (2) drains are small both in spacing and size, resulting in enormous computational costs for a traditional 3D FE analysis. Based on the idea of the semi-analytical finite element method (FEM), which combines general FEM with the high accuracy of a closed-form solution, a new spatial element that contains a drain well and its neighbouring smear zone is presented. This new combined element is depicted by eight global independent nodes and two local dependent nodes, and a classical analytical theory is introduced to set up the relationship between the two kinds of nodes. Because permeability diversity between the drain and the smear zone is considered, both the effects of smearing and well resistance are taken into account with the composite element method (CEM). A detailed derivation of the CEM is performed using the weighted residual method. The accuracy of the proposed method is validated with a totally penetrating, single-drain ground analysis for seven calculation conditions. Additionally, the proposed CEM saves 1/4–1/2 mesh elements and helps to avoid slender elements for the FEM analysis of the drained foundation. 相似文献
15.
The planning stages of mining require comprehensive and detailed analyses. The proper determination of the orebody boundary is one of the most important points to provide optimum model structure and projections. The limits can be determined by different methods based on the site geology. Although some three dimensional (3D) models were proposed for providing detailed information concerning a mine deposit, developing a solid model via a 3D approach is novelty. In other words, surface modeling should be performed for creating a solid model and determining limits of the deposit. In this way, sensible generation of the surface model can be achieved. This study investigated the estimation capability of the polynomial approach, which is a novel spatial interpolation method, for modeling a coal deposit surface. The performance of the proposed model was compared with some conventional methods in the literature. The results showed that the polynomial interpolation method is an effective method to employ for surface modeling of a mine deposit. 相似文献
16.
三维地质建模是地质数据可视化和空间分析的关键技术之一。针对传统建模方法建模速度慢、建模效率和精度较低的问题,提出了一种直接基于钻孔的点→线→面→体快速递进三维地质建模方法。该方法先对钻孔地层信息进行人机交互对比构成地质剖面,再按钻孔实际坐标在三维空间中还原地质剖面的实际位置,接着通过对剖面间的地层连线进行Kriging插值,形成一系列地层面模型,然后以此为基础构建三维地质框架模型,最后利用BSP矢量剪切技术来裁剪模型边界,形成研究区三维地质模型。该方法在福州市上街镇三维城市地质模型构建的实际应用中得到了验证。实践结果表明,该方法不仅可以实现三维地质模型的快速构建,还可以显著提高三维地质模型的精度。 相似文献
17.
基于多层DEM与QTPV的混合数据模型及其在地质建模中的应用 总被引:8,自引:1,他引:7
提出一种基于多层DEM与似三棱柱体元(QTPV)的混合三维数据模型。模型包含顶点、线段(棱边、三角形边)、三角形、侧面四边形、似三棱柱体元和DEM 6个基本元素,同时包含点对象、线对象、面对象、体对象、复杂对象、空间对象等6个对象。设计了6个基本元素和2种地质对象的数据结构和它们之间的拓扑关系。研究了基于原始采样点和基于内插点的两种建模方法。以模拟数据和地质钻探数据对开发的原型系统进行验证。研究表明,基于多层DEM与似三棱柱体元的混合三维数据模型具有同时表达空间对象的表面和内部结构的能力,适合地质勘探领域的三维建模。 相似文献
18.
二维与三维边坡稳定性分析得到的安全系数存在着差异,讨论这种差异与滑体几何尺寸及土体强度参数间的变化规律及其形成机制,可为合理地评价边坡稳定性分析提供理论依据。针对均质三维边坡,利用基于滑面正应力修正模式的极限平衡法分析程序,定性地讨论滑体形态、长高比、坡比、土体强度参数等指标对二维与三维安全系数计算结果差异(以F3/F2表示)的影响,总结F3/F2与影响指标间的变化规律,分析变化规律形成的内在机制。从工程应用的角度,给出需要考虑该差异影响的分界标准。研究表明,F3/F2随着长高比L/H、内摩擦角?及坡比m的增大逐渐减小,随着黏聚力c的增大逐渐增大;对于满足下列条件之一的边坡,宜采用三维安全系数来评价其稳定性,(1) L/H ≤ 5的滑坡体;(2) 5< L/H ≤ 10且 c > 25 kPa(或? < 15°,或m < 1.0) 的滑坡体。研究成果可为合理评价边坡稳定性分析方法提供参考。 相似文献
19.
在隐伏矿体三维预测中,预测模型的准确性在很大程度上取决于找矿指标对矿化富集部位的指示性。然而,找矿指标容易受到找矿概念模型可靠性和成矿信息提取有效性限制,从而影响预测的准确性。论文以山东大尹格庄金矿隐伏矿体三维预测为例,基于深度学习方法,构建矿床深部隐伏矿体三维预测模型,旨在利用深度网络模型,学习获得对矿化具有显著指示性的找矿指标,提升三维预测的准确性。该方法将三维地质模型及其形态特征转换为适合卷积网络二维图像,采用卷积神经网络实现找矿指标的自动提取,并构建三维地质模型到矿化富集地段的定量关联。利用该方法建立了大尹格庄金矿的三维预测模型,经与几种人工建立找矿指标预测模型的对比分析,表明基于深度学习的预测模型较大地提升了预测准确性。 相似文献
20.
砂井地基固结的三维有限元模型及应用 总被引:2,自引:0,他引:2
一维和二维的数值方法对刻画砂井地基的固结都不够准确和全面,但砂井密集地基的完全三维耦合模拟难度比较大。在对称性原理和Biot固结理论基础上,对三维渗流-二维变形的有限单元方法(PDSS法)进行了改进,给出了砂井地基经济合理的三维剖分方案,使PDSS模型能够直接刻画正三角形布局的砂井。砂井重新布置到节点上而非处理成单元,原模型计算中砂井附近径向流的偏离也得到修正。改进的PDSS模型还与反求参数的方法相结合,用于真空联合堆载预压下砂井路基固结变形的工程模拟。 相似文献