29 September 1998 Large deformation measurement and analysis on related curved surfaces
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Proceedings Volume 3407, International Conference on Applied Optical Metrology; (1998) https://doi.org/10.1117/12.323308
Event: International Conference on Applied Optical Metrology, 1998, Balatonfured, Hungary
Abstract
In the field of holographic Interferometry the technique with two holograms and modifications at the reconstruction is investigated in case of large deformations of an opaque body. The recovering of previously invisible fringes and the strain determination is briefly outlined. Two conditions for the smallness of the first derivative of the optical path difference should ensure locally a proper spacing and a sufficient contrast of the fringes. The three linear forms from the first derivative are analyzed with the polar decomposition, some affine connections and the transverse ray aberration. Frenet's curvature relations, an involution from the shell theory, the changes of geodesic curvature and the integrability are involved. The latter points to the dislocation theory. The principal subject is the second derivative of the path difference to analyze the fringe curvature. Three quadratic forms appear besides terms with the fringe and visibility vectors. They contain the derivatives of the dilatation and the curvature change of the object surface and the virtual deformation of the images. The duality of the aberration permits the elimination of some bilinear forms. In the appendix the previous relations of curvature change are illustrated by a short extension to the Ricci tensor and to geodesics in general. An interpretation by a virtual deformation of Schwarzschild's solution of the field of gravitation is added as a simple example.
© (1998) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Walter Schumann, "Large deformation measurement and analysis on related curved surfaces", Proc. SPIE 3407, International Conference on Applied Optical Metrology, (29 September 1998); doi: 10.1117/12.323308; https://doi.org/10.1117/12.323308
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