主办:陕西省汽车工程学会
ISSN 1671-7988  CN 61-1394/TH
创刊:1976年

Automobile Applied Technology ›› 2024, Vol. 49 ›› Issue (14): 57-62.DOI: 10.16638/j.cnki.1671-7988.2024.014.011

• Design and Research • Previous Articles    

Finite Element Modeling and Analysis of the Drive Axle Hub Shaft under Lateral Loading Conditions

YAN Zhenhua1 , YU Jilong2 , DU Fei1 , GUO Xiaozhe1   

  1. 1.School of Mechanical and Aerospace Engineering, Jilin University;2.Jilin Weichuang Electromechanical Engineering Company Limited
  • Published:2024-07-25
  • Contact: YAN Zhenhua

侧向加载工况驱动桥轮毂轴管有限元 建模及分析

闫振华 1,于吉龙 2,杜 飞 1,郭晓哲 1   

  1. 1.吉林大学 机械与航空航天工程学院;2.吉林省威创机电工程有限公司
  • 通讯作者: 闫振华
  • 作者简介:闫振华(1982-),男,博士,副教授,研究方向为汽车零部件有限元分析,E-mail:yanzhenhua@jlu.edu.cn。
  • 基金资助:
    国家自然科学基金(51605184)资助。

Abstract: To predict the stress distribution of the driving axle hub shaft under lateral loading conditions, a force analysis is conducted on the hub shaft, a mechanical model is established, and the contact load between the bearing rolling element and the raceway is determined by combining geometric and mechanical analysis. The load is applied to the inner race of the bearing in the form of a linear load, and a finite element model of the hub shaft is established. Based on this model, the stress distribution of the hub shaft is obtained, and the finite element model is validated using qualitative and quantitative methods. The results show that the finite element modeling method for the hub shaft provided is simpler than the simplified method, and the stress distribution obtained is more reasonable. The larger stress is located in the area with significant changes in structural stiffness, as well as at the root of the thread, the fillet of the bearing installation journal, and the fillet of the hub shaft root. The research results can be used for the design of the guide hub shaft.

Key words: Drive axle; Hub shaft; Finite element; Lateral loading

摘要: 为预测侧向加载工况驱动桥轮毂轴管的应力分布,针对轮毂轴管进行了受力分析,建 立了力学模型,并综合几何和力学分析,确定了轴承滚动体与滚道之间的接触载荷;将该载 荷以线载荷的形式施加到轴承内圈滚道上,建立了轮毂轴管的有限元模型;基于该模型获得 了轮毂轴管的应力分布,并基于定性、定量方法验证了该有限元模型。结果表明,所给出的 轮毂轴管有限元建模方法较简化方法,获得的应力分布更为合理,较大的应力位于结构刚度 变化大的区域,即螺纹根部、轴承安装轴颈圆角、轮毂轴管根部圆角,研究结果可用于指导 轮毂轴管设计。

关键词: 驱动桥;轮毂轴管;有限元;侧向加载