3D displacement field measurement with correlation based on the micro-geometrical surface texture

Image correlation methods are widely used in experimental mechanics to obtain displacement field measurements. Currently, these methods are applied using digital images of the initial and deformed surfaces sprayed with black or white paint. Speckle patterns are then captured and the correlation is p...

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Bibliographic Details
Published in:Optics and lasers in engineering 2011-07, Vol.49 (7), p.793-803
Main Authors: Bubaker-Isheil, Halima, Serri, Jérôme, Fontaine, Jean-François
Format: Article
Language:English
Subjects:
3D displacement field measurement
Correlation
Correlation analysis
Displacement
Image correlation
Laser scanner
Micro-geometric texture
Roughness pattern
Surface layer
Texture
Three dimensional
Two dimensional
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Summary:Image correlation methods are widely used in experimental mechanics to obtain displacement field measurements. Currently, these methods are applied using digital images of the initial and deformed surfaces sprayed with black or white paint. Speckle patterns are then captured and the correlation is performed with a high degree of accuracy to an order of 0.01 pixels. In 3D, however, stereo-correlation leads to a lower degree of accuracy. Correlation techniques are based on the search for a sub-image (or pattern) displacement field. The work presented in this paper introduces a new correlation-based approach for 3D displacement field measurement that uses an additional 3D laser scanner and a CMM (Coordinate Measurement Machine). Unlike most existing methods that require the presence of markers on the observed object (such as black speckle, grids or random patterns), this approach relies solely on micro-geometrical surface textures such as waviness, roughness and aperiodic random defects. The latter are assumed to remain sufficiently small thus providing an adequate estimate of the particle displacement. The proposed approach can be used in a wide range of applications such as sheet metal forming with large strains. The method proceeds by first obtaining cloud points using the 3D laser scanner mounted on a CMM. These points are used to create 2D maps that are then correlated. In this respect, various criteria have been investigated for creating maps consisting of patterns, which facilitate the correlation procedure. Once the maps are created, the correlation between both configurations (initial and moved) is carried out using traditional methods developed for field measurements. Measurement validation was conducted using experiments in 2D and 3D with good results for rigid displacements in 2D, 3D and 2D rotations. ► The presented technique is based on correlation of micro-geometrical texture patterns with a scanner laser. ► It is possible to measure 3D displacements and strains fields without using spray with a results accuracy similar to the classical DIC method. ► This method could be applied to natural soft bodies.
ISSN:0143-8166
1873-0302
DOI:10.1016/j.optlaseng.2011.03.007