1.
Simulation of Abilities of Torsion Elimination and Ground Adhesion for Vehicle with New-Type Torsion-Eliminated Suspension
新型消扭悬架车辆的消扭能力及接地性仿真
2.
Theory Design Simulation and Test of Hydro-pneumatic Torsion-free Suspension;
油气消扭悬架的理论设计仿真与试验
3.
Simulation and Analysis of Hydropneumatic Elimination Torsion Suspension Based on ADAMS;
基于ADAMS的油气消扭悬架系统仿真分析
4.
Simulation and Analysis of the Application Effect of Mechanical Elimination Torsion Suspension;
机械式消扭悬架系统应用效果的仿真分析
5.
OPTIMUM DESIGN OF AUTOMOTIVE SUSPENSION AND TORSION BAR SPRING
汽车扭杆悬架及扭杆弹簧的优化设计
6.
Controlling the Pitch of Automobile Body When Braking by Means of Adjusting the Pre Fastened Angle of Torsion Bar Suspension
调节扭杆悬架预扭角控制汽车纵向角振动
7.
A study of fatigue life s estimating method of light car s torque-tod;
轻型车悬架扭杆寿命估计方法的研究
8.
DOE Optimization was applied on Twist Beam Suspension to Improve Ride and Handling
基于操纵稳定性的扭转梁悬架DOE优化
9.
Application of ADAMS/Insight in Double Wishbone Torsion Bar Independent Suspension
ADAMS/Insight在双横臂扭杆独立悬架中的应用
10.
The rear suspension , derived from the hatchback, consists of a torsion-beam, two rear suspension arms and an integral anti-roll bar.
该悬架,从掀背式,共分一个扭束,两个悬架武器和不可分割的防滚棒.
11.
The Design、Kinematical Analyse and Optimization of the Longitudinal Arm with Tortile Spring Suspension;
纵臂扭杆弹簧悬架的设计、运动学分析及优化
12.
The Design and Research on Independent Suspension Drive Axle with a Single Trailing Arm and Two Transversal Torsion Bars;
单纵臂横扭杆独立悬架驱动桥设计研究
13.
The Special Function Research of Torsion Rod Spring in Independent Suspension;
汽车独立悬架中扭力杆的特殊功能分析与研究
14.
The Simulation Analysis and Evaluation for K&C Characters of Beam-Twist and Multi-link Suspension;
扭转梁与四连杆悬架K&C特性分析及评价
15.
Analysis of Torsion Beam Rear Suspension Effecting on Understeer
扭力梁式后悬架对不足转向性的影响分析
16.
Finite element analysis and structural optimization on double-wishbone independent suspension with torsion bar
双横臂扭杆独立悬架有限元分析与结构优化
17.
Chassis design of a new type of lunar rover with a dual rocker-bogie and torsion bar
新型八轮双摇杆摇臂扭杆月球车悬架设计
18.
Ensure the torsion bar is fitted in the correct position to prevent contact with the suspension frame.
确保扭力杆安装在正确的位置以防止与悬架摩擦。