1·The wave profile along ship hull and wave contours were obtained.
计算获得了船体上波形以及船波等值线图。
2·Dynamic Stiffness Matrix Method is applied to compute vibration of ship hull.
采用动态刚度阵法计算船体总振动的固有频率。
3·Therefore, collectivity design on The Underwater Ship Hull Cleaning Robot is finished.
完成了船体表面清刷机器人的总体设计。
4·The bending-torsion coupling vibration of ship hull attracts more attention in recent years.
大开口船的弯扭耦合振动问题近年来愈来愈多地受到人们的重视。
5·It is defined the mathematical ship hull to use mathematical function in designing hull lines.
数学船型就是用数学函数表达和设计船体型线。
6·The Liuting Pavilion looks like an abstract ship hull in exterior shape, and lotus fills the entire pond.
留听阁在外观上看起来像一个抽象的船体,其池塘中荷花满溢。
7·The effective wake is one of the primary reasons of propeller cavitation and induced ship hull vibration.
实效伴流的不均匀性是引起螺旋桨空泡、振动的主要原因之一。
8·The phenomena and feature of whipping response of a ship hull induced by underwater explosion are discussed.
本文揭示了水下非接触爆炸产生的气泡脉冲激起细长形船体作鞭状响应运动的现象。
9·The design of magnetic structure is the key technology of ensuring reliable adsorption of the robot on the ship hull.
磁路结构的设计是保证机器人在船体表面可靠吸附的关键技术。
10·This paper presents a composite mechanical model of membrane element and beam element for ship hull and superstructure.
本文提出了用膜元与集中质量的组合形式作为上层建筑的力学模型。
1·The Liuting Pavilion looks like an abstract ship hull in exterior shape, and lotus fills the entire pond.
留听阁在外观上看起来像一个抽象的船体,其池塘中荷花满溢。
2·Dynamic Stiffness Matrix Method is applied to compute vibration of ship hull.
采用动态刚度阵法计算船体总振动的固有频率。
3·After collision and grounding, the load - bearing capacity of a ship hull is weakened while the floating condition and the external load distribution of the ship may change dramatically.
在船舶发生碰撞和搁浅后,一方而是船体结构承载能力的削弱;另一方面是船舶浮态和外载荷分布的的著变化。
4·Both the ship hull vibration and the local vibration of ship stern structures should be taken into consideration in the vibration problem of ship stern structures.
船舶尾部结构的振动问题应同时从船体总振动和尾部结构的局部振动两方面来考虑。
5·The features, method and standard of drop weighed tear test are described with its application in steels for pipes, pressure vessels and ship hull.
论述了落锤撕裂试验的特点、方法和标准,以及该试验在管道钢材、压力容器钢和船体结构钢薄板上的应用情况。