Remove differential case from axle housing.
从轴管上拆卸差速箱。
Remove differential case and dummy bearings from axle housing.
从差速箱拆卸差速器侧轴承。
Auto industry: steel ring, vehicle body, chasis, axle housing, oil tank, door, etc. C.
汽车行业:钢圈、车身、油箱、桥壳、底盘、车门等零件。
With coil springs, the rear-suspension system requires some method of holding the axle housing in place.
螺旋弹簧后悬架系统固定于后桥壳上。
By using non-linear finite element theory, a non-linear finite element model for hydroforming for rear axle housing is established.
利用非线性有限元理论方法,建立了后桥壳液压胀形有限元模型。
Automobile axle housing should have enough strength, enough stiffness and light weight as the safety and functional part of motor vehicle.
汽车桥壳是车辆中重要的安全件和功能件,要有足够的强度和刚度,质量要小。
Improvements to axle housing are made. The improved axle housing features lighter weight, reduced maximum stress and rational stress distribution.
对该桥壳的相应结构提出了改进方案,改进后的桥壳质量更小,最大应力也大幅减小,且应力分布更为合理。
Through the drive axle housing, the tractive force, braking force and lateral force act on the wheel transfer to the suspension system, frame or carnage.
作用在汽车驱动轮上的三种力即制动力、牵引力和侧向力,同样也是经过桥壳传到悬挂及车架或者车身上。
Through the drive axle housing, the tractive force, braking force and lateral force act on the wheel transfer to the suspension system, frame or carriage.
作用在驱动车轮上的牵引力、制动力和侧向力,也是经过桥壳传到悬挂及车架或者车身上。
Through the drive axle housing , the tractive force, braking force and lateral force act on the wheel transfer to the suspension system, frame or carriage.
作用在驱动车轮上的牵引力、制动力和侧向力,也是经过桥壳传到悬挂及车架或者车厢上。
The effect of normalizing on microstructure, strength, impact toughness and ductile-brittle transition temperature of FAS390Q axle housing steel was studied.
研究了正火处理对FAS390Q桥壳钢显微组织、强度、冲击韧性和韧脆转变温度的影响。
The result of welding experiment and production practice show that the welded rear-axle housing have quality stability and high precision and fatigue strength.
通过试验和生产验证,所焊接的后桥壳体精度高、抗疲劳性能好、质量稳定。
The most important of the drive axle is the axle housing, the structure characteristic of the steer able drive axle housing decides the drive axle's capability.
转向驱动桥最重要的部件是桥壳,桥壳的结构力学特性对整个转向驱动桥的性能起着至关重要的作用。
The process of vacuum electron beam welding for rear-axle housing semiaxis of coach was introduced and the major problems in the process of welding was analysed.
介绍了用真空电子束焊接大型客车后桥壳半轴的工艺方法,并就焊接过程中存在的主要问题进行了分析。
According to the characteristic of hydroforming for rear axle housing, rigid-plastic material model is elected as tube blank material model process simulation analysis.
根据后桥壳液压胀形的特点,选择刚塑性材料模型进行模拟分析。
Correct positioning of the connection of the axle housing and gear reductor housing is the Key point of driving axle assembly to play the role of its overall functions.
桥壳与减速器壳的定位连接是驱动桥总成发挥总件作用的关键。
Abstract as the mainly carrying and passing components of the vehicle, the automobile drive axle housing supports the weight of vehicle, and transfer the weight to the wheel.
摘要作为汽车的主要承载件和传力件驱动桥壳承受了载货汽车满载时的大部分载荷而且还承受由驱动车轮传递过来的驱动力、制动力、侧向力等并经过悬架系统传递给车架和车身。
The results show that stress in hollow beam and semi-shaft bush is much less than permissible stress, while joint of suspension frame and axle housing has too large local stress.
结果表明,驱动桥壳空心梁和半轴套管部分的应力远小于材料的许用应力,而悬架支座与桥壳连接处出现了局部应力过大的情况。
The analysis of calculated results shows that overloading is the main reason for tho damage of rear axle, housing of the truck.
对计算结果的分析认为,超载是该车后轴壳损坏的原因。
The differential is part of the rear-axle-housing assembly, which includes the differential, rear axles, wheels and bearing.
差速器是后桥壳总成的一个部件,后桥壳总成包括差速器、后桥、车轮和轴承。
Disc brakes all around became standard and the bell-housing of the front axle was changed to accommodate larger reduction-gears.
碟刹成为各地标准和贝尔住房的前轴改变,以适应更大的还原齿轮。
Disc brakes all around became standard and the bell-housing of the front axle was changed to accommodate larger reduction-gears.
碟刹成为各地标准和贝尔住房的前轴改变,以适应更大的还原齿轮。
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