Analysis of plastic strain localization by a combination of the speckle interferometry with the bulge test

The process of localization of strains, diffuse and localized necking, up to fracture in equi-biaxial loading was analyzed through the images obtained by electronic speckle pattern interferometry (ESPI). The problem of localization is important in the sheet metal forming processes. The ESPI techniqu...

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Bibliographic Details
Published in:Optics and lasers in engineering 2007, Vol.45 (1), p.222-228
Main Authors: Montay, G., François, M., Tourneix, M., Guelorget, B., Vial-Edwards, C., Lira, I.
Format: Article
Language:English
Subjects:
Bulge test
Diffuse and localized necking
ESPI
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Imaging and optical processing
Instruments, apparatus, components and techniques common to several branches of physics and astronomy
Interferometers
Localization
Mechanics
Mechanics of materials
Optical instruments, equipment and techniques
Optics
Physics
Plastic strain
Speckle and moire patterns
Strain rate
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Summary:The process of localization of strains, diffuse and localized necking, up to fracture in equi-biaxial loading was analyzed through the images obtained by electronic speckle pattern interferometry (ESPI). The problem of localization is important in the sheet metal forming processes. The ESPI technique is used to have a better resolution on the measured strains (10 −5) than other technique such as the image correlation (10 −2, 10 −3). The bulge test is currently used to determine the mechanical properties of materials by measuring the deformation that occurs in response to the application of a controlled pressure. This test is used to determine the mechanical properties of sheet metals submitted to an equi-biaxial loading path, the strains at failure are used as data to determine forming limit diagrams (FLDs). The aim of this study is to detect the localization of plastic strain (diffuse and localized necking) during the bulge test combined with a common speckle interferometer. This paper describes an original technique to detect the localization using the strain rate at different positions on the sample. The main originality of this work is the application of an optical interferometer to determine the field of plastic strain increments and strain rates in the region of the top of the specimen, at various stages of global strains.
ISSN:0143-8166
1873-0302
DOI:10.1016/j.optlaseng.2006.03.012