1.
Research on Structural Dynamic Analysis of the Rotor Blade of Horizontal Axis Wind Turbine;
水平轴风力机桨叶结构动力学特性研究
2.
Research on Vibration Characteristic for Composite Blade with Damages
含损伤复合材料桨叶结构振动特性研究
3.
Structure Design for Composite Rotor Blade Based on Parametric Module Definition
基于参数化组件描述的复合材料桨叶结构设计
4.
The Method of Structural Optimal Design for Canstraints of Frequency Screen and Its Application tb Rotor Blade Design
频栅约束的结构优化设计方法及在桨叶设计上应用
5.
The results showed that the influence of the lower impeller on NJSG was the largest, and three-bladed back-sweep impeller was the optimum.
结果表明,底层桨对临界搅拌转速的影响最大,最佳的底层桨为3叶后掠桨。
6.
Analysis of Force Bearing and Research of Computing Method to the Folding Structure of Helicopter Blades
桨叶折叠机构受力分析和计算方法研究
7.
maximum blade thickness ratio
桨叶截面最大叶厚比
8.
adjustable blade
可调叶片可调螺旋桨叶
9.
A sculling stroke consists of the following elements: catch, drive/pull, through, finish, and recovery.
双桨艇划桨由以下动作成分组成:提桨,拉桨,划桨,结束和回桨。
10.
Effect of Cam Structure of Kaplan Turbine on the Regulating Quality
转桨式水轮机的协联结构对调节品质的影响
11.
Study of the Relationship between Sequence and Structure in the Beta-propeller Fold Proteins;
螺旋桨家族蛋白质序列和结构关系研究
12.
Propeller cavitation research by an unstructured grid based RANS solver
基于非结构网格RANS方法螺旋桨空化研究
13.
Fuzzy Sliding Mode Variable Structure Control for Variable-speed Adjustable-pitch Wind Turbine
变速变桨距风力发电机的模糊滑模变结构控制
14.
Research on Strength and Vibration of Composite Propellers;
复合材料螺旋桨桨叶强度与振动分析
15.
The Hydrodynamic Performance of Big Blade Scull;
“Big Blade”赛艇双桨桨叶性能的试验研究
16.
A leaflike organ or structure.
叶状的结构象叶子一样的器官或结构
17.
angle of blades is adjustable.
可以调整桨叶的角度。
18.
blade, for ship or boat propellers
大船小船用螺旋桨叶