Failure analysis and thermochemical surface engineering of bearings for wind turbine drivetrains

机译：风力涡轮机驱动器轴承的故障分析与热化学表面工程

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Roller element bearings inside the drivetrain of a wind turbine are exposed to highly dynamic loads that can for instance originate from the wind field, the rotor, the drivetrain itself or the generator.This can lead to premature failure of these components and consequently to high economic maintenance costs.The mechanism behind the premature failures is not well understood but is associated with the formation of so called white etching cracks (WECs).Complementary microscopic techniques were used to analyse failed bearings and to characterize the morphology of white etching cracks.Deep nitriding was studied as a potential remedy to failures associated with WECs.Performance of nitrided rollers was evaluated by rolling contact fatigue testing under conditions known to provoke WEC failure.

机译：风力涡轮机的动机内的滚子元件轴承暴露于高动态载荷，例如可以从风场，转子，传动系统本身或发电机源自源自风场。这可能导致这些组件的过早失效，从而实现高经济过早失败背后的机制尚不清楚，但是与所谓的白色蚀刻裂缝（WECs）的形成有关。使用的微观技术用于分析失败的轴承并表征白色蚀刻裂缝的形态。Dep氮化作为与WECS相关的故障的潜在补救措施。通过在已知的条件下促进WEC衰竭的条件下滚动疲劳试验来评估氮化辊的矿度。

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《International Conference on Energy and the Future of Heat Threatment and Surface Engineering》|2014年||共5页
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Ole H.E.West; Kristian V.Dahl; Thomas L.Christiansen; Marcel A.J.Somers;
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中图分类金属学与热处理;
关键词
white etching cracks; bearings; wind turbine drivetrain; nitriding; rolling contact fatigue;

机译：白色蚀刻裂缝;轴承;风力涡轮机传动系统;氮化;滚动接触疲劳;

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1. Long-term contact fatigue analysis of a planetary bearing in a land-based wind turbine drivetrain [J] . Z. Jiang, Y. Xing, Y. Guo, Wind Energy . 2015,第4期

机译：陆基风力涡轮机传动系统中行星轴承的长期接触疲劳分析
2. A systems engineering analysis of three-point and four-point wind turbine drivetrain configurations [J] . Guo Y., Parsons T., Dykes K., Wind Energy . 2017,第3期

机译：三点和四点风力涡轮机传动系统配置的系统工程分析
3. Optimised bearings improve reliability of wind turbines: Liu Su examines the general failure modes of wind turbine gearbox bearings, and looks at the solutions to the problem [J] . Liu Su Industrial Technology . 2013,第Juna期

机译：优化的轴承可提高风力发电机的可靠性：Liu Su检查了风力发电机齿轮箱轴承的一般故障模式，并研究了解决问题的方法
4. Failure analysis and thermochemical surface engineering of bearings for wind turbine drivetrains [C] . Ole H.E.West, Kristian V.Dahl, Thomas L.Christiansen, 2nd International Conference on Energy and the Future of Heat Threatment and Surface Engineering . 2014

机译：风力发电机传动系统轴承的失效分析和热化学表面工程
5. Fatigue-induced failure in horizontal-axis wind-turbine (HAWT) blades and HAWT drivetrain gears. [D] . Chenna, Varun. 2014

机译：疲劳引起的水平轴风力涡轮机（HAWT）叶片和HAWT传动系统齿轮故障。
6. Wind Turbine Main Bearing Fault Prognosis Based Solely on SCADA Data [O] . Ángel Encalada-Dávila, Bryan Puruncajas, Christian Tutivén, 2021

机译：风力涡轮机主要轴承故障预后仅基于SCADA数据
7. Failure analysis and thermochemical surface engineering of bearings for wind turbine drivetrains [O] . West Ole H.E., Dahl Kristian Vinter, Christiansen Thomas Lundin, 2014

机译：风力机动力传动系轴承的失效分析和热化学表面工程

Failure analysis and thermochemical surface engineering of bearings for wind turbine drivetrains

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