1.
By means of simulation, a study was made on the achievable braking characteristics for the new typed hydraulic torque variation reducer under the deceleration and braking condition when the vehicle is going on a long downhill journey.
通过仿真,研究了该新型液力变矩减速器在下长坡减速制动工况下所能达到的制动性能。
2.
Based on the structural and characteristics analysis upon a certain new style traction-braking typed hydraulic torque variation reducer, the simulation model was established for certain typed vehicle to be on a long decline.
基于对某新型牵引-制动型液力变矩减速器的结构和特性分析,建立了某型车辆下长坡的仿真模型。
3.
Research of Hydraulic Torque Converter & Retarder and Retardment Performance of Vehicle;
液力变矩减速制动器及车辆制动特性研究
4.
Accelerative Calculating Method on the Cooperating Point of Engine and Hydraulic Torque Converter
发动机与液力变矩器共同工作点的加速算法
5.
torque converter oil temperature telltale
液力变矩器油温警告灯
6.
Research of the Double Clutch Torque Converter Lockup Damping and Control;
双离合器式液力变矩器的闭锁减振及其控制的研究
7.
Hydraulic Toque Conventer and Engine Maching and Optimization Research on Transmission
液力变矩器与发动机匹配及变速器档位优化研究
8.
Research on the Torque Distribution Characteristics of Dual-Turbine Torque Converter
双涡轮液力变矩器转矩分配特性研究
9.
Control Theory and Test on TC and AMT System of Off-road Vehicle;
越野汽车液力变矩器和机械自动变速系统的控制理论与试验
10.
Research on Slip Control of Lock-up Clutch in Torque Converter;
液力变矩器闭锁离合器滑摩控制研究
11.
Research of Locking Controller for Hydraulic Torque Converters on Dozers
推土机液力变矩器闭锁控制器的研究
12.
Calculation and analysis of axial force in hydrodynamic torque converter based on CFD
液力变矩器轴向力的CFD计算与分析
13.
Hydrodynamic torque converter--Method of performance tests
GB/T7680-1987液力变矩器性能试验方法
14.
Research on Series Design Based on the Hydrodynamic Torque Converter W305;
基于W305液力变矩器的系列化研究
15.
Study on Parameters Optimization and Shaping of the Hydrodynamic Torque Converter Blade;
液力变矩器叶栅参数优化及造型研究
16.
New W305 Torque Converter Perfomance Testing and Analysis;
W305新型液力变矩器性能试验分析
17.
Reverse Designing of Torque Converter Based on Pro/Engineer Wildfire;
基于Pro/Engineer Wildfire的液力变矩器反求设计
18.
Design of Visualization of Interactive 3D Blades Based on OpenGL;
基于OpenGL的液力变矩器叶片可视化设计