摘要
根据20CrMnMo材料的牵引齿轮真实参数,利用ANSYS软件建立有限元模型,对其接触应力进行分析得出:最大接触应力发生在齿面接触点位置,且以等值椭圆线向外扩散,使齿面产生不同程度的微裂纹,最终导致磨损和剥落等疲劳失效形式发生;通过微观组织分析,发现剥落裂纹部分的组织受损较重,验证了有限元分析的正确性。
According to the real parameters of 20CrMnMo locomotive traction gear, established the finite element model of gear pair with ANSYS. The real 6ontact stress was simulated. The results showed that the largest contact stress existed contact surface and diffusing equivocally with the shape of oval, microscopic fatigue crack was generated to a varying degree in surface. Finally fatigue failure occurred such as wear and crack. By analysis microcosmic mechanism, damaged structure was found in crack frac- tion. Analysis of finite element was examined rightly.
出处
《现代制造工程》
CSCD
北大核心
2012年第7期36-39,共4页
Modern Manufacturing Engineering
基金
河南省重点攻关项目(092102210382)
关键词
牵引齿轮
接触应力
疲劳裂纹
有限元
微观机理
traction gear
contact stress
fatigue crack
finite element
microcosmic mechanism
