A study into the impact of tooth root transition curve morphology on the bending fatigue life of gears

IF 5.7 2区 材料科学 Q1 ENGINEERING, MECHANICAL
Cheng Wang
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Abstract

Tooth fracture is a prevalent failure mode that is intimately related to the bending strength of gears. Among the myriad factors influencing gear bending fatigue life, the morphology of the tooth root transition curve stands out as a crucial one, intricately tied to the gear’s resistance to bending fatigue. However, despite its significance, related research efforts, particularly experimental studies that consider cost factors, are relatively scarce in the current research landscape. Therefore, this paper first theoretically examines the influence of the tooth root transition curve morphology on the bending stress of gear teeth. Subsequently, bending fatigue experiments are conducted on gears featuring three typical tooth root transition curve morphologies, and the S-N curves for gears with these different morphologies are summarized. The findings reveal that adopting the digging-root type tooth root transition curve processing method, coupled with appropriately increasing the radius of the tooth top transition curve on the rack cutter, suitably reducing the distance between the rack tooth profile line and the tangent of the tooth root transition curve, and meticulously controlling the roughness of the tooth root transition curve, will significantly enhance the bending fatigue strength and prolong the bending fatigue life of the gear.
齿根过渡曲线形态对齿轮弯曲疲劳寿命影响的研究
齿断裂是一种普遍的失效模式,与齿轮的弯曲强度密切相关。在影响齿轮弯曲疲劳寿命的众多因素中,齿根过渡曲线的形态是一个关键因素,与齿轮的抗弯曲疲劳性能密切相关。然而,尽管其重要性不言而喻,相关的研究工作,尤其是考虑成本因素的实验研究,在目前的研究领域却相对匮乏。因此,本文首先从理论上研究了齿根过渡曲线形态对齿轮齿弯曲应力的影响。随后,对具有三种典型齿根过渡曲线形态的齿轮进行了弯曲疲劳实验,并总结了具有这些不同形态的齿轮的 S-N 曲线。研究结果表明,采用掘根式齿根过渡曲线加工方法,同时适当增大齿条切刀上齿顶过渡曲线的半径,适当减小齿条齿廓线与齿根过渡曲线切线之间的距离,细致控制齿根过渡曲线的粗糙度,可显著提高齿轮的弯曲疲劳强度,延长弯曲疲劳寿命。
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来源期刊
International Journal of Fatigue
International Journal of Fatigue 工程技术-材料科学:综合
CiteScore
10.70
自引率
21.70%
发文量
619
审稿时长
58 days
期刊介绍: Typical subjects discussed in International Journal of Fatigue address: Novel fatigue testing and characterization methods (new kinds of fatigue tests, critical evaluation of existing methods, in situ measurement of fatigue degradation, non-contact field measurements) Multiaxial fatigue and complex loading effects of materials and structures, exploring state-of-the-art concepts in degradation under cyclic loading Fatigue in the very high cycle regime, including failure mode transitions from surface to subsurface, effects of surface treatment, processing, and loading conditions Modeling (including degradation processes and related driving forces, multiscale/multi-resolution methods, computational hierarchical and concurrent methods for coupled component and material responses, novel methods for notch root analysis, fracture mechanics, damage mechanics, crack growth kinetics, life prediction and durability, and prediction of stochastic fatigue behavior reflecting microstructure and service conditions) Models for early stages of fatigue crack formation and growth that explicitly consider microstructure and relevant materials science aspects Understanding the influence or manufacturing and processing route on fatigue degradation, and embedding this understanding in more predictive schemes for mitigation and design against fatigue Prognosis and damage state awareness (including sensors, monitoring, methodology, interactive control, accelerated methods, data interpretation) Applications of technologies associated with fatigue and their implications for structural integrity and reliability. This includes issues related to design, operation and maintenance, i.e., life cycle engineering Smart materials and structures that can sense and mitigate fatigue degradation Fatigue of devices and structures at small scales, including effects of process route and surfaces/interfaces.
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