| 1. | To define stress, we need an area element of arbitrary size and orientation without insisting that it have any particular shape .
为了定义应力,需要利用一个大小和方向任意而形状无特殊要求的面元。 |
| 2. | Research on performance of rudder with additional thrust fin by panel method
面元法计算桨后舵附推力鳍水动力性能 |
| 3. | Probe into method on common reflection bin stacking by asymmetric trace gathering
不对称抽道集共反射面元叠加方法探讨 |
| 4. | Prediction of hydrodynamic performance of marine propellers by surface panel method
用面元法预报船舶螺旋桨的水动力性能 |
| 5. | Bin center location map
面元中心位置图 |
| 6. | Bin coverage map
面元复盖图 |
| 7. | Method for estimating geometic characteristics of numerical conceptual aircraft models based on surface elements
基于面元的数值化概念机模型几何特性估算 |
| 8. | The wave problem is predicted by adopting panel method based on kelvin source for a ship traveling in a uniform flow
摘要采用基于开尔文源的面元法求解航行于均匀流场中的船舶兴波问题。 |
| 9. | Corresponding numerical results of wave - making calculations for high - speed ships using higher - order panel method are encouraging
采用高阶面元法得到的高速船舶相应的兴波计算数值结果令人鼓舞。 |
| 10. | This paper has adopted the low - order surface panel method based on velocity potential to predict the unsteady performance of propeller
本文采用基于速度势的低阶面元法进行螺旋桨非定常性能的预报。 |
