1.
Experimental Study of the Ventilation Drag Parameters in a Railway Ballast Layer
铁路碎石道碴层通风阻力参数试验研究
2.
Research on Relationship between Shaft Resistance of Rock-Socketed Pile and Behavior of Around Rock;
嵌岩桩桩侧阻力与岩土参数关系研究
3.
Experiment on the Friction Loss of Prestressed Dust and Parameter Identification
预应力孔道摩阻损失试验与参数识别
4.
Determination of Local Resistance Coefficient at Low Reynolds Number Using Distributed Parameter Method
以分布参数法确定低雷诺数局部阻力系数
5.
Prediction of flow resistance in low Reynolds number flow over piles with none wall-parameter
无壁面参数低雷诺数桩群阻力计算研究
6.
Research on Algorithms for Parameter Optimization of Power System Damping Controllers;
电力系统阻尼控制器参数优化设计研究
7.
Study on the Parameters and Resistance of Low-Elevation Long-Distance Backfilling Pipeline Network
低高程长距离充填输送管网参数及阻力研究
8.
Effect of the Parameters of New Resistance Wall on Wear Resistance of Crankshaft Finish Forging Die
新型阻力墙结构参数对曲轴终锻模磨损的影响
9.
High frequency parameter meter based on TLC2934 for power line trap
基于TLC2934的电力阻波器高频参数测试仪设计
10.
Study on the Correlation Coefficient between Deep-shovel's Key Parameters and Tractive Resistance with Path Coefficient
通径系数法研究深松铲关键参数与牵引阻力的关系
11.
blade profile drag coefficient
桨叶剖面阻力系数,叶型阻力系数
12.
Having derived the fundamental drag force formula, one can derive a number of important parameters.
在导出阻力的基本公式后,就可以得出一系列重要的参数。
13.
Coordinated Parameters Design of Damping Controllers for Power System with STATCOMs;
包括STATCOM的电力系统阻尼控制器参数协调设计方法研究
14.
Parameter optimization for SVC control systems for improving damping properties of power systems connected with wind farms
用于改善含风电场电力系统阻尼特性的SVC控制系统参数优化方法
15.
We call parameter 4 is a dynamic parameter.
称参数4为动力参数。
16.
drag coefficient
牵引系数,阻力系数
17.
According to the principle of resistance power and driving power being equal in amounts, the key parameter, the greatest acting force acted on the active tooths by the revolving arm ball bearing of the shock wave instrument is resulted.
根据阻力功和动力功相等的原理,推导出关键参数激波器转臂轴承对活齿的最大作用力.
18.
Effects of such parameters as system pressure, sub-cooling, and pressure loss on flow excursion characteristics and transport capability of heat load are also delivered.
讨论了系统压力、欠热度、阻力等参数对运行稳定性及输热能力限的影响。