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Abstract
The application of digital speckle shearographic methods in the non-destructive inspection of the inner curved surfaces of technical cavities is presented in this paper. Experiments are carried out with defective and defect-free curved specimens and the obtained fringe patterns are analyzed. An extended theoretical formulation dealing with the slope fringe formation with respect to the inner half-cylindrical surfaces is compared with the experimentally obtained fringe patterns. Finally, the slope contours are numerically obtained by finite element analysis of defective and defect-free specimens and are compared with the experimentally obtained fringe patterns.
Acknowledgements
The authors acknowledge the financial support received through Academic Research Fund (RG10/02), Nanyang Technological University, Singapore.