数字图像相关技术在航空航天工程中的应用:飞机部件的结构健康监测

Q3 Earth and Planetary Sciences
Ravindra Mallya, Amol Kiran Uchil, Satish B. Shenoy, Anand Pai
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引用次数: 0

摘要

数字图像相关(DIC)是一种重要的光学测量技术,在材料力学领域有多种应用。在航空航天应用中,DIC 在飞机部件的结构健康监测方面有着出色的表现。飞机机翼是关键部件之一,在飞行过程中会承受不同的载荷。机翼的地面测试和飞行中测试可从 DIC 监测中获益匪浅。DIC 可用于分析机翼表面斑点图案或网格的时间变化。通过合适的相关软件处理的高分辨率图像有助于将数据解读为应力和应变轮廓。因此,任何潜在的材料故障或部件缺陷都可以被识别出来。DIC 还可用于扑翼分析,对机翼振动和变形进行仔细检查。在本综述中,我们将讨论 DIC 在飞机部件分析中的应用,因为飞行中的结构健康监测对于安全飞行至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of digital image correlation in aerospace engineering: structural health monitoring of aircraft components

Digital Image Correlation (DIC) is a vital optical measurement technique that finds diverse applications in the domain of mechanics of materials. In aerospace applications, DIC has excellent scope in structural health monitoring of aircraft components. Aircraft wings, one of the critical components are subjected to different loads during flight. Ground testing and In-flight testing of wings can benefit substantially by DIC monitoring. DIC can be utilized to analyze the time-based variation in the speckle pattern or grid, applied to the wing’s surface. High-resolution images processed through a suitable correlation software helps decipher the data into stress and strain contours. Thus, any potential material failure or component defects can be identified. DIC also finds a role in flutter analysis, enabling the scrutiny of wing vibrations and deformations. In this review, the applications of DIC in analysis of aircraft components has been taken up, as in-flight structural health monitoring is a critical activity for a safe flight.

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来源期刊
Aerospace Systems
Aerospace Systems Social Sciences-Social Sciences (miscellaneous)
CiteScore
1.80
自引率
0.00%
发文量
53
期刊介绍: Aerospace Systems provides an international, peer-reviewed forum which focuses on system-level research and development regarding aeronautics and astronautics. The journal emphasizes the unique role and increasing importance of informatics on aerospace. It fills a gap in current publishing coverage from outer space vehicles to atmospheric vehicles by highlighting interdisciplinary science, technology and engineering. Potential topics include, but are not limited to: Trans-space vehicle systems design and integration Air vehicle systems Space vehicle systems Near-space vehicle systems Aerospace robotics and unmanned system Communication, navigation and surveillance Aerodynamics and aircraft design Dynamics and control Aerospace propulsion Avionics system Opto-electronic system Air traffic management Earth observation Deep space exploration Bionic micro-aircraft/spacecraft Intelligent sensing and Information fusion
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