1) bottom slamming
底部砰击
1.
Prediction of bottom slamming motion and loads for FPSO
FPSO底部砰击运动与荷载预报
2.
The Boundary Element Method (BEM) is a popular method used to solve the bottom slamming caused by the entering of the two-dimensional wedge or three-dimensional cone into the initial still water with a constant velocity.
当前船舶底部砰击荷载的理论模型是二维楔形或三维锥体以恒定的速度进入初始静止水面,采用边界元方法求解。
3.
The Boundary Element Method (BEM) of Two-dimensional wedge or three-dimensional blunt falling on to calm water at a constant velocity is used as a popular method for bottom slamming.
当前船舶底部砰击荷载的理论研究大多根据二维楔形或三维物体以常速撞击静止水面的理论模型,采用边界元方法求解。
2) bottoming
[英]['bɔtəm] [美]['bɑtəm]
底部砰击着底
3) stem slamming
首底砰击
4) slamming
[英][slæm] [美][slæm]
砰击
1.
Numerical Simulation of Fluid-Structure Interaction Arising from Bottom Slamming;
船底结构砰击时的流固耦合数值模拟
2.
Study on the dynamic characteristics of high-speed object slamming water
高速运动物体砰击水面后的动力学特性研究
3.
hip slamming is a nonlinear unsteady problem in which dynamic boundary and structure,air,water coupling should be considered.
船舶的砰击问题是一个包含动边界、结构-空气-水三者耦合的非线性、非定常问题,一直是船舶领域研究的前沿热点。
5) slamming load
砰击载荷
1.
On bottom slamming load and strength requirement for Structures of Box Barges;
箱形驳船底部砰击载荷及结构加强要求研究
2.
In this paper, two finite element models of plated grillages are built to calculate the transient dynamic response to slamming load of a high-speed ship.
本文运用大型有限元程序ANSYS建立某一高速船密加筋和纵骨架式两种形式的船底板架的有限元模型,计算这两种船底结构板架在砰击载荷作用下的瞬态动力响应特征,进行比较分析,得出能更好的抗砰击的高速船船底结构形式,为高速船的结构没计提供参考。
3.
Considering the buckling failure modes of ship deck,a method of assessing the reliability of ship structure under slamming load was proposed.
针对甲板结构受压屈曲的失效模式,提出一种砰击载荷作用下舰船结构的可靠性分析方法。
6) slamming pressure
砰击压力
1.
2-D simulation research on the air cushion effect on the slamming pressure peak value of trimaran cross structure;
空气层对高速三体船连接桥砰击压力峰值影响二维仿真研究
2.
A forecast method of slamming pressure acting on the ship outside plates;
船舶表面点砰击压力的预报方法
3.
Not only can the fluid generate big slamming pressures on the structure,but the structure s response has significant effects on the fluid s flow fields,as strong fluid-solid coupling exists between them.
当结构与流体发生冲击作用时,不但流体会对结构产生较大的砰击压力,结构响应也会反过来对流场产生显著影响,两者之间存在强烈的流固耦合现象。
补充资料:砰击
1.撞击;冲击。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条