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 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.
本文以轻型载货汽车驱动桥壳为研究对象详细论述了从UG软件中的参数化建模到ANSYS中有限元模型的建立、边界条件的施加等研究。
This article studies based on light truck driver axle of QX1060, discusses in detail from the UG software parametric modeling, establish of ANSYS FEM model, and the boundary conditions imposed, etc.
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。
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.
介绍了轻型汽车驱动桥桥壳结构特点、工艺性能。
The structure characteristics and technology parameters of the driving bridge shell in the light truck are introduced.
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。
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.
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 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 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.
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