Modeling of Surface Waves in a Fluid Saturated Poro-Elastic Medium under Initial Stress Using Time-Space Domain Higher Order Finite Difference Method

Anjana P. Ghorai; R. Tiwary

首页> 外文期刊>Applied Mathematics >Modeling of Surface Waves in a Fluid Saturated Poro-Elastic Medium under Initial Stress Using Time-Space Domain Higher Order Finite Difference Method

【24h】

Modeling of Surface Waves in a Fluid Saturated Poro-Elastic Medium under Initial Stress Using Time-Space Domain Higher Order Finite Difference Method

机译：时空域高阶有限差分法模拟流体饱和弹性弹性介质在初始应力下的表面波

获取原文

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

团队文献服务 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

In this present context, mathematical modeling of the propagation of surface waves in a fluid saturated poro-elastic medium under the influence of initial stress has been considered using time dependent higher order finite difference method (FDM). We have proved that the accuracy of this finite-difference scheme is 2M when we use 2nd order time domain finite-difference and 2M-th order space domain finite-difference. It also has been shown that the dispersion curves of Love waves are less dispersed for higher order FDM than of lower order FDM. The effect of initial stress, porosity and anisotropy of the layer in the propagation of Love waves has been studied here. The numerical results have been shown graphically. As a particular case, the phase velocity in a non porous elastic solid layer derived in this paper is in perfect agreement with that of Liu et al. (2009).

机译：在这种情况下，已经考虑了使用时间相关的高阶有限差分法（FDM）对在初始应力影响下的流体饱和孔隙弹性介质中的表面波传播进行数学建模。我们已经证明，当使用二阶时域有限差分和2M阶空间域有限差分时，此有限差分方案的精度为2M。还已经表明，对于高阶FDM，洛夫波的色散曲线与低阶FDM相比，色散曲线的分散性较小。在此研究了洛夫波传播过程中层的初始应力，孔隙率和各向异性的影响。数值结果已以图形方式显示。作为一个特殊情况，本文得出的无孔弹性固体层中的相速度与Liu等人的相速度完全一致。（2009）。

著录项

来源
《Applied Mathematics 》 |2013年第3期| 共8页
作者
Anjana P. Ghorai; R. Tiwary;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种
中图分类数学 ;
关键词

相似文献

外文文献
中文文献
专利

1. Temporal High-Order Time-Space Domain Finite-Difference Methods for Modeling 3D Acoustic Wave Equations on General Cuboid Grids [J] . Wang Enjiang, Ba Jing, Liu Yang Pure and Applied Geophysics . 2019 ,第12期

机译：用于普通长方体网格上的3D声波方程建模3D声波方程的时间高阶时间空间域有限差分方法
2. General rectangular grid based time-space domain high-order finite-difference methods for modeling scalar wave propagation [J] . Chen Hanming, Zhou Hui, Sheng Shanbo Journal of Applied Geophysics . 2016 ,第Null期

机译：基于普通矩形网格的时空域高阶有限差分方法，用于标量波传播建模
3. Acoustic wave propagation simulation in a poroelastic medium saturated by two immiscible fluids using a staggered finite-difference with a time partition method [J] . ZHAO HaiBo, WANG XiuMing 中国科学:物理学力学天文学（英文版） . 2008 ,第007期

机译：使用与时间分区方法的交错有限差异饱和两个不混溶的流体饱和的孔隙介质中的声波传播模拟
4. Numerical Modeling of Love Waves in Dry Sandy Layer Under Initial Stress Using Different Order Finite Difference Methods [C] . Jayantika Pal, Anjana P. Ghorai National Conference on Wave Mechanics and Vibrations . 2020

机译：不同秩序有限差分方法初始压力下干式砂层中热浪波的数值模型
5. Part I. Improved handling to geometry details in finite difference time domain method. Part II. Method of circuit extraction using finite difference frequency domain matrix formulation with application to power bus modeling. [D] . Xiao, Kai. 2005

机译：第一部分。改进的有限时域时域方法处理几何细节。第二部分使用有限差分频域矩阵公式的电路提取方法及其在电力总线建模中的应用。
6. Comprehensive Numerical Analysis of Finite Difference Time Domain Methods for Improving Optical Waveguide Sensor Accuracy [O] . M. Mosleh E. Abu Samak, A. Ashrif A. Bakar, Muhammad Kashif, 2016

机译：时域有限差分法提高光波导传感器精度的综合数值分析
7. Modeling of Surface Waves in a Fluid Saturated Poro-Elastic Medium under Initial Stress Using Time-Space Domain Higher Order Finite Difference Method [O] . Anjana P. Ghorai, R. Tiwary 2013

机译：时空域高阶有限差分法在流体饱和弹性弹性介质中的初始应力下的表面波建模

Modeling of Surface Waves in a Fluid Saturated Poro-Elastic Medium under Initial Stress Using Time-Space Domain Higher Order Finite Difference Method

摘要

著录项

相似文献

相关主题

期刊订阅