摘要
齿轮啮合是一个比较复杂的过程,由于渐开线齿廓的固有特性使得齿轮在啮合过程中会产生许多非线性的影响,这些非线性影响对于齿轮啮合特性的分析和优化有着举足轻重的意义。文章首先基于先进的有限元理论,提出一种能够准确计算齿轮啮合刚度,并可模拟齿轮啮合动态过程的有限元模型。其次将应用此模型考虑摩擦的影响对直齿轮齿根应力进行分析,并对直齿轮轮齿的齿根应力在啮合过程中的变化趋势以及相应的摩擦影响进行讨论和总结。
The gear meshing is a complicated process, and there will be much nonlinear behaviour in gear meshing process due to the characteristic of involute gear tooth profile. The nonlinear behaviour is very significant for gear meshing analysis and performance optimization. This paper proposes a finite element model which can calculate the contact stiffness accurately and simulate the dynamic meshing process on the basis of finite element theory, and then will apply this finite element model to analyze the tooth root strength of spur gear with the consideration of frictional effects. The significant variation trend of tooth root bending stress in spur gear meshing and relevant frictional effects will be discussed and summarized in this paper.
出处
《船舶工程》
北大核心
2013年第2期59-62,95,共5页
Ship Engineering
关键词
直齿轮啮合模拟
有限元模型
轮齿接触分析
齿根应力分析
摩擦影响
simulation of spur gear meshing
finite element model
gear tooth contact analysis
gear tooth root stress analysis
frictional effect