Turbine blade wear and damage - An overview of advanced characterization techniques

Schlobohm Jochen; Bruchwald Oliver; Frackowiak Wojciech; Li Yinan; Kaestner Markus; Poesch Andreas; Reimche Wilfried; Reithmeier Eduard; Maier Hans Juergen

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Turbine blade wear and damage - An overview of advanced characterization techniques

机译：涡轮叶片磨损和损坏-先进的表征技术概述

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This paper gives an overview of four measurement techniques that allow to extensively characterize the status of a worn turbine blade. In addition to the measurement of geometry and surface properties, the condition of the two protective coatings needs to be monitored. Fringe projection was used to detect and quantify geometric variances. The technique was improved using newly developed algorithms like inverse fringe projection. A Michelson interferometer was employed to further analyze areas with geometric defects and characterize the surface morphology of the blade. Pulsed high frequency induction thermography enabled the scanning of the blade for small cracks at or close to the surface. High frequency eddy current testing was used to determine the protective layers status and their thickness.

机译：本文概述了四种测量技术，这些技术可以广泛地表征涡轮叶片的磨损状态。除了测量几何形状和表面特性外，还需要监视两种保护涂层的状况。条纹投影用于检测和量化几何差异。该技术通过使用最新开发的算法（如逆条纹投影）得到了改进。迈克尔逊干涉仪被用于进一步分析具有几何缺陷的区域并表征叶片的表面形态。脉冲高频感应热成像技术能够扫描叶片，以寻找表面或表面附近的小裂纹。高频涡流测试用于确定保护层的状态及其厚度。

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《Materialpruefung: Werkstoffe und Bauteile, Forschung Prufung Anwendung》 |2016年第5期|共6页
作者
Schlobohm Jochen; Bruchwald Oliver; Frackowiak Wojciech; Li Yinan; Kaestner Markus; Poesch Andreas; Reimche Wilfried; Reithmeier Eduard; Maier Hans Juergen;
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正文语种 eng
中图分类工程材料学;
关键词
Fringe projection; interferometer; thermography; eddy current; turbine blade; wear; damage;

机译：边缘投影;干涉仪;热成像;涡流;涡轮叶片;磨损;损坏;

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1. Turbine blade wear and damage - An overview of advanced characterization techniques [J] . Schlobohm Jochen, Bruchwald Oliver, Frackowiak Wojciech, Materialpruefung: Werkstoffe und Bauteile, Forschung Prufung Anwendung . 2016,第5期

机译：涡轮叶片磨损和损坏-先进的表征技术概述
2. Mechanical characterization and damage assessment of thick adhesives for wind turbine blades using acoustic emission and digital image correlation techniques [J] . Dimitrios Zarouchas, Danny van Hemelrijck Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2014,第14a15期

机译：使用声发射和数字图像相关技术对风轮机叶片的粘稠剂进行机械表征和损伤评估
3. Damage detection techniques for wind turbine blades: A review [J] . Ying Du, Shengxi Zhou, Xingjian Jing, Mechanical systems and signal processing . 2020,第Jula期

机译：风力发电机叶片的损伤检测技术：综述
4. Advanced characterization techniques for turbine blade wear and damage [C] . Jochen Schlobohm, Oliver Bruchwald, Wojciech Frackowiak, International Conference on Through-life Engineering Services . 2016

机译：涡轮叶片磨损和损坏的高级表征技术
5. Performance evaluation of wind turbine blades using blade element momentum theory and flow simulation techniques. [D] . Raina, Amool A. 2011

机译：使用叶片单元动量理论和流动模拟技术评估风力涡轮机叶片的性能。
6. Sustainable End-of-Life Management of Wind Turbine Blades: Overview of Current and Coming Solutions [O] . Leon Mishnaevsky Jr. 2021

机译：风力涡轮机刀片的可持续终生管理：当前和即将到来的解决方案概述
7. Damage Detection in Wind Turbine Blade Panels Using Three Different SHM Techniques [O] . Luczak M., Peeters B., Mevel L., 2011

机译：基于三种不同sHm技术的风力机叶片损伤检测
8. Techniques Optimized for Reducing Instabilities in Advanced Nickel-Base Superalloys for Turbine Blades [R] . MacKay, Rebecca A., Locci, Ivan E., Garg, anita, 2002

机译：优化降低涡轮叶片用高级镍基高温合金不稳定性的技术

Turbine blade wear and damage - An overview of advanced characterization techniques

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