1.
The Frequency Calculation and Dynamic Frequency Test of Interlocked Long Blade;
整圈自锁长叶片共振频率计算与动频试验
2.
Resonances of Coupled Vibration of Dry-friction Damper Turbine Blades;
干摩擦叶片耦合振动的共振响应研究
3.
Resonances of Dry-friction Damper Turbine Blades under Multi-harmonic Excitation;
多频激励下干摩擦阻尼叶片的共振响应
4.
STATIONARY AND NONSTATIONARY VIBRATIONS OF TURBINE BLADE UNDER INTERNAL RESONANCE CONDITIONS
汽轮机叶片内共振系统的稳态和非稳态振动特性研究
5.
Accurate Analysis and Identification of Polypeptide Fragmentations of Osteopontin by Fourier Transform-Ion Cyclotron Resonance-Mass Spectrometry
傅立叶变换离子回旋共振质谱分析与鉴定骨桥蛋白的多肽片段
6.
The resonant frequency of the impeller blades of APU load compressor is a target index necessary to be controlled in the process of the maintenance of impeller.
辅助动力装置负载压气机叶轮叶片的共振频率是维修叶轮过程中需要控制的一项指标。
7.
Fourier transform nuclear magnetic resonance
傅里叶变换核磁共振
8.
The assessment result shows that the blade has a high circle fatigue failure caused by first order bending vibration resonance excitated by rotating stall.
评估结果表明,该级叶片存在旋转失速激发的一阶弯曲振动共振导致的高周疲劳失效。
9.
Exploring Key Features of Blade Mistuning Effects on Vibration Characteristics of Bladed Disks
叶片失谐对叶盘结构振动特性的影响
10.
The Design of Steam Turbine Blade Vibration Characteristic Experimental Bench and the Study on Blade Vibration Characteristic;
汽轮机叶片振动特性实验台设计及叶片振动特性研究
11.
Method to Predict the Blade Vibration Stress Induced by Wake Influence
尾流激振情况下叶片振动应力预估方法
12.
The blade is clamped and excited into some mode of vibration.
叶片夹好后,被激发进入某种振动状态。
13.
Vibrating Characteristic And Dynamic Stress Calculation for Adjustable Rotary Blade
可调式动叶片振动特性及动应力计算
14.
Experimental Research of Condition Monitoring for Steam Turbine Blade Vibration;
汽轮机叶片振动状态监测的实验研究
15.
Studies on Stick-Slip Periodic Vibration of Dry-Friction Damper Turbine Blades;
干摩擦阻尼叶片的黏滑周期振动研究
16.
The research of substructuring method on the forced vibration of steam turbine blade
汽轮机叶片受迫振动子结构方法研究
17.
Experimental study of the vibration reduction of a blade using closed-loop control air-inhalation technology
叶片闭环可控吸气减振技术实验研究
18.
The Flutter Analysis of Tuning Blade Based on the Characteristic Section Method
基于特征截面法的协调叶片颤振分析