您的位置: 专家智库 > >

国家自然科学基金(20133ACB20006)

作品数:2 被引量:4H指数:1
相关作者:黄晓强徐满清徐斌汪小布更多>>
相关机构:南昌工程学院更多>>
发文基金:国家自然科学基金更多>>
相关领域:建筑科学更多>>

文献类型

  • 2篇中文期刊文章

领域

  • 2篇建筑科学

主题

  • 1篇动荷载
  • 1篇动荷载作用
  • 1篇移动荷载
  • 1篇移动荷载作用
  • 1篇英文
  • 1篇子结构
  • 1篇子结构法
  • 1篇积分
  • 1篇积分方程
  • 1篇荷载
  • 1篇荷载作用
  • 1篇SATURA...
  • 1篇AROUND
  • 1篇BIOT理论
  • 1篇BOUNDA...
  • 1篇EMBEDD...
  • 1篇SCATTE...
  • 1篇CAVITY

机构

  • 1篇南昌工程学院

作者

  • 1篇汪小布
  • 1篇徐斌
  • 1篇徐满清
  • 1篇黄晓强

传媒

  • 1篇南昌工程学院...
  • 1篇Journa...

年份

  • 1篇2014
  • 1篇2013
2 条 记 录,以下是 1-2
排序方式:
Scattering wave field around a cavity with circular cross-section embedded in saturated soil using boundary element method被引量:3
2013年
Based on Biot’s theory and considering the properties of a cavity,the boundary integral equations for the numerical simulation of wave scattering around a cavity with a circular cross-section embedded in saturated soil are obtained using integral transform methods.The Cauchy type singularity of the boundary integral equation is discussed.The effectiveness of the properties of soil mass and incident field on the dynamic stress concentration and pore pressure concentration around a cavity is analyzed.Our results are in good agreement with the existing solution.The numerical results of this work show that the dynamic stress concentration and pore pressure concentration are influenced by the degree of fluid–solid coupling as well as the pore compressibility and water permeability of saturated soil.With increased degree of fluid–solid coupling,the dynamic stress concentration improves from 1.87 to 3.42 and the scattering becomes more significant.With decreased index of soil mass compressibility,the dynamic stress concentration increases and its maximum reaches 3.67.The dynamic stress concentration increases from 1.64 to 3.49 and pore pressure concentration improves from 0.18 to 0.46 with decreased water permeability of saturated soil.
张鸿高谦徐斌
移动荷载作用下土—结构共同作用的积分方程法分析(英文)被引量:1
2014年
根据饱和土体Biot理论,采用薄板理论与最小势能及子结构法,将土—结构作为整体系统,利用接触边界处位移连续、应力平衡条件,建立了移动荷载作用下饱和土体上部结构振动的积分方程,然后再利用Fourier逆变换,得到土体、结构及基础筏板在时间—空间域内的位移、应力,并利用文中方法进行了算例分析.
徐满清汪小布徐斌于华群黄晓强
关键词:积分方程BIOT理论子结构法
共1页<1>
聚类工具0