maximum braking friction coefficient 最大刹车摩擦系数
Braking Friction Disk 制动器摩擦片
braking friction plate 制动摩擦片
car braking friction disk 汽车制动摩擦片
car braking friction plate 汽车摩擦片
A car braking friction plate 汽车制动摩擦片
There are variety braking modes in the braking process, which has the problem how to integrated control the regenerative braking and the friction braking . So the brake system of HEV is much different from the conventional vehicles.
混合动力汽车的制动力由电机再生制动力和制动器摩擦制动力构成,制动过程中具有多种制动工作模式,存在着电机再生制动和制动器摩擦制动的综合控制问题,因此混合动力汽车制动系统与传统车辆存在较大的不同。
参考来源 - HEV再生制动与摩擦制动综合控制研究·2,447,543篇论文数据,部分数据来源于NoteExpress
Transport vehicles braking effect is generated by friction braking, the vehicle's kinetic energy into useless heat.
运输车辆刹车是通过磨擦作用产生制动力,将车辆的动能转化为无用的热能。
Some braking systems, such as the Inertial Transfer braking (ITB) system and Dual braking system, make use of both friction and magnetic elements.
有些刹车系统,如惯性转移刹车(itb)系统和双刹车系统,同时利用了摩擦力和磁力的原理。
The rain and snow tires and the ground, and reduce the friction, so braking system seems to be especially important, ABS antilock brake systems and power distribution system many EBD is indispensable.
雨雪天气,轮胎与地面的摩擦力减小,因此制动系统显得格外重要,ABS防抱死系统和EBD电子制动力分配系统是必不可少的。
应用推荐