共查询到19条相似文献,搜索用时 562 毫秒
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三维稳定渗流的 p 型自适应有限元分析 总被引:3,自引:2,他引:3
建立了三维稳定渗流的p型自适应有限元分析的误差估计器。充分利用p型有限元前处理少、计算精度高和收敛速度快的优点,分析了p型有限元法求解渗流问题的技术特点,给出了求解三维稳定渗流的自适应升阶策略。通过具体算例,研究了单元阶次及网格尺度对计算结果的影响,验证了三维p型有限元法在求解渗流问题时的可行性。 相似文献
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基于非结构化网格的2.5D直流电阻率模拟 总被引:2,自引:1,他引:1
结合大型通用有限元软件ANSYS所提供的强大网格剖分功能,实现了2D地质模型的非结构化三角形网格剖分,并编写了2.5D直流电阻率有限元法FORTRAN语言计算程序.经计算对比表明,在节点数基本相同时,非结构化三角形网格比传统的矩形网格、矩形~三角形网格具有更高的计算精度,可以很好地拟合复杂地形和地质体边界.在此基础上,采用非结构化三角形网格,计算了起伏地形下2.5D地电模型的视电阻率异常,并利用比较法进行了地形改正.与水平地形时的结果对比表明,比较法可以较好地消除地形影响,突出局部地质体的异常. 相似文献
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用有限元法计算土石坝地震反应时,有限元模型的网格剖分、计算边界的处理是计算精度的主要影响因素,也是有限元法分析前处理的主要工作。基于河海大学岩土工程研究所开发的二维有限元土石坝计算程序,分析了网格剖分的形式、网格的合理尺寸、简单边界的计算取值范围对土石坝地震反应的影响。研究结果表明,在土石坝地震反应计算中,网格剖分的整体形式应该水平成层,网格尺寸以最大坝高的7 %~10 %为上限;在有覆盖层的土石坝工程中,简单边界的计算区域应包括覆盖层,并与覆盖层厚度有特定的关系。上述成果可使前处理过程更严谨、更易操作,可作为研究和实际工程计算的参考。 相似文献
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研究了三维渗流的自适应有限元法,建立了集成网格自动剖分、渗流有限元分析、网格调整、后处理等四大模块的四面体单元h型自适应系统。给出的算例证实了系统的有效性和优越性。 相似文献
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详细介绍了无网格伽辽金法(EFGM)基本原理,并将其应用于非均质多孔介质中的稳定地下水流问题,用具体算例将无网格伽辽金法计算结果与传统有限元法(LFEM)计算结果作比较,计算表明无网格伽辽金法具有较高的精度。 相似文献
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《物探化探计算技术》2019,(5)
有限元求解大地电磁正演问题时,对研究区域的剖分常规做法是采用规则化的网格。但规则化网格在剖分地形、断层、褶皱等复杂模型会产生较大的几何离散误差。针对上述情况,这里采用非结构化的四边形网格对二维地电模型进行网格剖分,并与自适应有限元相结合,由剖分的粗网格出发,利用每个频点下网格单元的后验误差估计值指导网格的局部加密,优化网格质量和数量,从而提高正演模拟的精度。通过一维K型地电模型利用本文方法算出数值解与解析解进行对比分析,验证了自适应有限元法在求解大地电磁二维正演模拟中的有效性。并通过对断层、褶皱模型的正演模拟,分析了其大地电磁正演响应特征。 相似文献
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扩展有限元法是针对不连续问题提出的一种改进的有限元法,由于其计算网格独立于结构内不连续面,该方法十分适用于处理不连续问题,因此,该方法需能将不连续面和计算网格的几何信息转化为计算分析所需的单元拓扑信息的前处理。针对扩展有限元法在不连续岩体问题中的应用,系统地研究了二维扩展有限元解决不连续问题时单元拓扑信息生成等前处理问题,给出了单元拓扑信息自动生成算法,将不连续面和计算网格几何信息转化为计算所需要的单元拓扑信息,并在此基础上开发了不连续岩体二维扩展有限元法前处理程序。结果表明该算法和程序的适用性和正确性,同时还表明扩展有限元法在不连续岩体问题求解中有较好的应用前景 相似文献
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阐述了节理岩体复合单元法基本原理,引入了阶谱有限单元法中的虚节点和广义节点概念,提出了覆盖虚棱(面)和广义棱(面)的概念,并进一步将虚节点和广义节点分类。在此基础上构造了节理岩体的三维复合单元不同阶次时的位移函数并推导了对应的刚度矩阵。算例表明此法是合理有效的。提出的概念有助于复合单元法和传统有限单元法二者升阶谱的理解与统一实现,并为实现节理岩体三维复合单元法的P型自适应奠定了基础。 相似文献
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This paper is concerned with the transient vibration analysis of railway-ground system under fast moving loads. A 3D finite element method in a convected coordinate system moving with the load is formulated, together with viscous-elastic transmitting boundary conditions in order to limit the finite element mesh. A method is proposed to introduce Rayleigh type material damping in the finite element formulation in the moving coordinate system, while measures have also been taken to improve the numerical stability of the solution procedure. The performance of the transmitting boundary and the entire solution procedure are assessed via comparison with the ordinary finite element solution of some relatively simple problems and through a comparison with field measurements. The reasonable agreement found from these comparisons demonstrates the validity of the proposed method. 相似文献
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Farhang Daneshmand 《国际地质力学数值与分析法杂志》2012,36(6):780-797
One major difficulty in seepage analyses is finding the position of phreatic surface which is unknown at the beginning of solution and must be determined in an iterative process. The objective of the present study is to develop a novel non‐boundary‐fitted mesh finite‐element method capable of solving the unconfined seepage problem in domains with arbitrary geometry and continuously varied permeability. A new non‐boundary‐fitted finite element method named as smoothed fixed grid finite element method (SFGFEM) is used to simplify the solution of variable domain problem of unconfined seepage. The gradient smoothing technique, in which the area integrals are transformed into the line integrals around edges of smoothing cells, is used to obtain the element matrices. The solution process starts with an initial guess for the unknown boundary and SFGFEM is used to approximate the field variable. The boundary shape is then modified to eventually satisfy nonlinear boundary condition in an iterative process. Some numerical examples are solved to evaluate the applicability of the proposed method and the results are compared with those available in the literature. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
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无限元是一种有效的人工边界,可用于处理弹性波的传播问题。在传统动力无限元的基础上,提出了一种采用分向插值技术的新型动力无限元,详细地推导了这种无限元的形函数,建立了完全解析形式的刚度矩阵,以提高计算效率,采用该无限元边界,计算了弹性介质中的线源Lamb问题,通过对比解析解答的地基表面位移,验证了该无限元的有效性。算例分析表明,采用此类无限元时,有限元单元边长建议取不超过1/8剪切波波长,网格边界到激励源点的距离宜取5倍剪切波波长。无限单元中的幅值衰减系数对计算结果影响甚微,建议取较小值。 相似文献
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基于二次场二维起伏地形MT有限元数值模拟 总被引:4,自引:1,他引:3
通过计算二次场来进行二维大地电磁数值模拟;导出了二维大地电磁二次场的微分方程,利用有限单元法来解微分方程;对矩形网格进行对角线的二次剖分,更容易且真实地模拟起伏地形。对几个典型模型进行了试算,与前人总场法的计算结果做了比较,两者视电阻率曲线一致,证明本文算法是正确的;通过2个简单的算例说明复杂地表下2种极化模式的MT观测资料都有明显的异常,视电阻率在TM模式下比TE模式更易受地形影响,TE模式下视电阻率曲线形态与地形呈"正相关",TM模式下反之。 相似文献
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Transient seepage analysis in zoned anisotropic soils based on the scaled boundary finite‐element method 
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下载免费PDF全文 The scaled boundary finite‐element method, a semi‐analytical computational scheme primarily developed for dynamic stiffness of unbounded domains, is applied to the analysis of unsteady seepage flow problems. This method is based on the finite‐element technology and gains the advantages of the boundary element method as well. Only boundary of the domain is discretized, no fundamental solution is required and singularity problems can be modeled rigorously. Anisotropic and non‐homogeneous materials satisfying similarity are modeled with no additional efforts. In this study, firstly, formulation of the method for the transient seepage flow problems is derived followed by its solution procedures. The accuracy, simplicity and applicability of the method are demonstrated via four numerical examples of transient seepage flow – three of them are available in the literature. Homogenous, non‐homogenous, isotropic and anisotropic material properties are considered to show the versatility of the technique. Excellent agreement with the finite‐element method is observed. The method out‐performs the finite‐element method in modeling singularity points. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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A local artificial boundary for transient seepage problems with unsteady boundary conditions in unbounded domains 下载免费PDF全文
下载免费PDF全文 Numerical analysis of transient seepage in unbounded domains with unsteady boundary conditions requires a more sophisticated artificial boundary approach to deal with the infinite character of the domain. To that end, a local artificial boundary is established by simplifying a global artificial boundary. The global artificial boundary conditions (ABCs) at the truncated boundary are derived from analytical solutions for one‐dimensional axisymmetric diffusion problems. By applying Laplace transforms and introducing some specially defined auxiliary variables, the global ABCs are simplified to local ABCs to significantly enhance the computational efficiency. The proposed local ABCs are implemented in a finite element computer program so that the solutions to various seepage problems can be calculated. The proposed approach is first verified by the computation of a one‐dimensional radial flow problem and then tentatively applied to more general two‐dimensional cylindrical problems and planar problems. The solutions obtained using the local ABCs are compared with those obtained using a large element mesh and using a previously proposed local boundary. This comparison demonstrates the satisfactory performance and obvious superiority of the newly established boundary to the other local boundary. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
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Abderrahim Houmat 《国际地质力学数值与分析法杂志》2013,37(11):1552-1573
A method is presented for coupling cubic‐order quadrilateral finite elements with the finite side of a new coordinate ascent hierarchical infinite element. At a common side shared by a hierarchical infinite element and an arbitrary number of finite elements, the displacements are minimized in the least square sense with respect to the degrees‐of‐freedom of the finite elements. This leads to a set of equations that relate the degrees‐of‐freedom of the finite and hierarchical infinite elements on the shared side. The method is applied to a non‐homogeneous cross‐anisotropic half‐space subjected to a non‐uniform circular loading with Young's and shear moduli varying with depth according to the power law. A constant mesh constructed from coupled finite and hierarchical infinite elements is used and convergence is sought simply by increasing the degree of the interpolating polynomial. The displacements and stresses produced by conical and parabolic circular loads applied on the surface are obtained. The efficiency of the proposed method is demonstrated through convergence and comparison studies. New results produced by a frusto‐conical circular load applied on the surface of a half‐space made up of heavily consolidated London clay are provided. The non‐homogeneity parameter and degree of anisotropy are shown to influence the soil response. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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A practical and efficient numerical scheme for the analysis of steady state unconfined seepage flows
The scaled boundary finite‐element method (SBFEM), a novel semi‐analytical technique, is applied to the analysis of the confined and unconfined seepage flow. This method combines the advantages of the finite‐element method and the boundary element method. In this method, only the boundary of the domain is discretized; no fundamental solution is required, and singularity problems can be modeled rigorously. Anisotropic and nonhomogeneous materials satisfying similarity are modeled without additional efforts. In this paper, SBFE equations and solution procedures for the analysis of seepage flow are outlined. The accuracy of the proposed method in modeling singularity problems is demonstrated by analyzing seepage flow under a concrete dam with a cutoff at heel. As only the boundary is discretized, the variable mesh technique is advisable for modeling unconfined seepage analyses. The accuracy, effectiveness, and efficiency of the method are demonstrated by modeling several unconfined seepage flow problems. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献