精细表面位移测量中的散斑互相关法

M. Bahrawi, N. Farid, M. Abdel-hady
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引用次数: 2

摘要

工业应用需要在生产过程中对制造机器的寿命、运动、强度和性能进行定期测试。由于散斑摄影是一种简单的经济技术,它被用于研究物体在机械和热效应下的响应,这取决于散斑图案的运动与变形强度和方向。在本工作中,使用互相关技术对散斑模式进行迭代分析,以确定刚体平移和扩展的值和方向。为了验证互相关技术的准确性,将结果与对散斑图进行傅里叶变换得到的杨氏干涉条纹的位移值进行了比较。基于光学系统的稳定性和灵敏度,发现这种非接触技术是准确和信息丰富的。这种测量方法是研究物体和机器在各种作用下的困难情况的有效工具。
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Speckle Cross-Correlation Method in Measuring Fine Surface Displacements
Industrial applications need regular testing for the lifetime, movement, strength, and performance of manufacturing machines during production process. Since speckle photography is a simple economic technique, it is used in investigating object response under mechanical and thermal effects depending on the movement of the speckle patterns with respect to the deformation strength and direction. In the present work, the cross-correlation technique is used to analyze the speckle patterns by iterative method to define both values and directions of rigid body translation and expansion. In order to check the accuracy of the cross-correlation technique, the results are compared with the displacement values given by analyzing the Young's interference fringes resulted from the Fourier transformation of the speckle patterns. This noncontact technique is found to be accurate and informative depending on the stability and sensitivity of the optical system. This method of measurement is an effective tool in studying the hard cases of objects and machines under various effects.
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