A Compact Laser Shearography System for On-Site Robotic Inspection of Wind Turbine Blades

人工智能技术学报(英文) Pub Date : 2021-07-08 DOI:10.37965/JAIT.2021.0008

Zhiyao Li, M. Tokhi, Zhanfang Zhao, Hai-Jun Zheng

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引用次数: 3

Abstract

Shearography is an optical technique in the field of non-destructive evaluation (NDE) of various materials. Its main advantages are that it is non-contact type and can cover a large area in a single inspection. As a result, although it has been widely acknowledged as an effective technique particularly for NDE of composite materials to detect subsurface defects such as delamination, disbond, cracks and impact damages, the use of shearography for on-site inspection of wind turbine blades (WTBs) has not been reported. This is due to wind causing structural vibration in the WTB. The solution in this paper is to make the shearography sit on the WTB during inspection when the WTB is parked, so that the relative motion between the shearography and the WTB is minimized within the tolerance of the shearography system. The ultimate goal of the solution is to enable a robot assisted shearography system to inspect the WTB on-site. This paper presents the research work on a new shearography design for integration with a robotic climber for on-site WTB inspection. The approach is tested and evaluated in experimental settings, and comparative assessment of the approach with other robotic NDE techniques is carried out. The results demonstrate the potential benefits and suitability of the approach for on-site robotic inspection of WTBs.

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用于风力涡轮机叶片现场机器人检测的紧凑型激光剪切成像系统

剪切成像技术是一种用于各种材料无损检测的光学技术。它的主要优点是非接触式，可以在一次检查中覆盖较大的区域。因此，虽然它已被广泛认为是一种有效的技术，特别是对于复合材料的无损检测，以检测亚表面缺陷，如分层、脱离、裂纹和冲击损伤，但使用剪切成像对风力涡轮机叶片(WTBs)进行现场检查尚未见报道。这是由于风引起WTB的结构振动。本文的解决方法是在小车停放时，将剪切板置于小车上，使剪切板与小车之间的相对运动在剪切系统允许的范围内最小化。该解决方案的最终目标是使机器人辅助剪切成像系统能够现场检查WTB。本文介绍了一种新型剪切成像设计的研究工作，该设计与一种用于WTB现场检测的爬行机器人相结合。该方法在实验环境中进行了测试和评估，并与其他机器人濒死技术进行了比较评估。结果证明了该方法在wtb现场机器人检测中的潜在优势和适用性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

人工智能技术学报(英文)

CiteScore

8.70

自引率

0.00%

发文量