1.
The Characteristic Study on Torsion Vibration of Dual Mass Flywheel and Its Simulation Analysis;
双质量飞轮扭振特性研究与仿真分析
2.
TORSIONAL VIBRATION CHARACTERISTIC OF POWERTRAIN EQUIPPED WITH DIFFERENT ELASTIC COUPLINGS
弹性联轴器对动力传动系统扭振特性影响研究
3.
Analysis of the Torsion Vibration of the Vehicle Powertrain with the Dual-mass Flywheel;
双质量飞轮的汽车动力传动系扭振特性分析
4.
Dynamic Characteristics and Test Analysis of the Torsional Vibration of Diesel Engine Shaft System at Engineering Vehicle;
工程车辆柴油机轴系扭振特性分析及测试研究
5.
Research on crankshaft torsional vibration based on virtual engine module
基于虚拟样机技术轴系扭振特性仿真和试验研究
6.
Description of torsional vibration absorber characteristics
GB/T13437-1992扭转振动减振器特性描述
7.
Analysis of Dynamic Behaviors of Pile-soil Nonlinear Coupling Torsional Vibration
桩与土非线性耦合扭转振动特性分析
8.
Study on the Torsional Vibrations of Foundations Resting on Saturated Grounds;
饱和地基上基础的扭转振动特性研究
9.
Calculation of Inherent Characerisics of Steam Turboset Shafting
汽轮发电机组轴系扭振固有特性计算
10.
Study on Nonlinear Dynamics Characteristics of a Rotor with Coupled Bending and Torsional Vibrations
转子弯扭耦合振动非线性动力学特性研究
11.
Study on Longitudinal and Torsional Vibration of Pile in Radial Heterogeneous Soil;
径向非均质土中桩的纵向及扭转振动特性研究
12.
Study on the Characteristic of Coupling Flexural-Torsional Vibration of Rotor like Generator s;
类发电机转子弯扭耦合振动特性的研究
13.
Automobile Friction Clutch Torsion Vibration Characteristic Analysis and Optimization
汽车摩擦离合器扭转振动特性分析及优化设计
14.
Lateral-torsional coupled vibration characteristics of transmission of a new type helicopter
某新型直升机传动系统弯-扭耦合振动特性研究
15.
Torsional vibration of pile in layered soils with considering soil-pile interaction
成层土中桩土耦合扭转振动特性理论研究
16.
Investigation of the Bending Vibration Features of one Wind Tunnel Power Shaft System based on the Flexural Vibration Coupling with the Torsion
某风洞动力轴系弯扭耦合的弯振特性研究
17.
Research on the Method and the Performance of Isolation of Torsional Vibration of DMF-CS Based on the Vehicle Power Train
汽车传动系用双质量飞轮的设计方法与扭振隔振特性研究
18.
The effects of three centres, i.e. aerodynamic centre, centre of gravity and centre of torsion, of blade on fluttering have been studied.
本文研究了叶片三心(重心、扭心、气动力中心)对颤振特性的影响。