节点文献
弹性圆柱薄壳在流体中的变形与内力分析
ANALYSIS ON THE DEFORMATION AND INTERNAL FORCE OF AN ELASTIC THIN CYLINDRICAL SHELL IN FLUID
【摘要】 应用薄壳弹性理论及流体力学基本方程,给出了圆柱壳在流体中流固耦合问题的基本关系式。阐述并应用相容拉格朗日-欧拉方法推导出流体绕壳横向流动时弹性圆柱薄壳的小弯曲变形问题的方程,并求解了流场的速度势和壳体的变形及内力分布。通过具体算例,绘出了流场分布图,讨论了有关参数变化对圆柱壳变形和表面压力系数的影响。
【Abstract】 The basic fluid-solid interaction formulas for a shell in fluid are given using elasticity theory of thin shells and fundamental equations of fluid mechanics. The united Lagrangian-Eulerian method is proposed and used to form the equations for the small bending of a cylindrical shell with a surrounding transverse flow, and then the velocity potential of the fluid field as well as the deformation and the internal force distribution of the shell are obtained. Using a specific example, the fluid field figures are obtained, and the effects of parameters on the deformation of the shell and pressure coefficient of the shell surface are discussed.
【Key words】 fluid-solid interaction; bending deformation; distribution of the internal force; united Lagrangian- Eulerian method; a thin cylindrical shell; fluid-elasticity parameter;
- 【文献出处】 工程力学 ,Engineering Mechanics , 编辑部邮箱 ,2007年05期
- 【分类号】TB126
- 【被引频次】12
- 【下载频次】330