CHANGE OF CRYSTALLOGRAPHIC ORIENTATION DISTRIBUTION DURING FORMING IN CARBON STEELDEFORMED BY DEEP DRAWING

Type : Article de conférence
Auteur(s) :  A.Boumaiza, R. harieche, N.Rouag
Année :  2012
Domaine : Génie mécanique
Conférence: The 3rd International Conference on welding, nondestructive testing and the industry of materials and alloys (ICWNDT-MI'12)
Lieu de la conférence:  Oran, Algeria
Résumé en PDF :  (résumé en pdf)
Fulltext en PDF :  (.pdf)
Mots clés :  crack propagation, strain rate, grains boundaries, texture, EBSD.

Résumé : 

Advances in techniques for measuring individual crystallographic orientations have made possible to investigate the role of local crystallography during crack propagation in polycrystalline materials. Thechange in crystallographic orientation distribution during deformation by deep drawing in carbon steel has been investigated in order to understand the deformation mechanisms leading to crack propagation. The well-known strain rate dependence of the deformation behaviour was examined by SEM-EBSD (scanning electron microscopy/electron back scatter diffraction pattern) analysis. This tool was used particularly to characterize the various crystallographic parameters. Evolution of grain boundary distribution during plastic deformation strongly depends of strain rate. Fraction of low angle grain boundaries increased after deformation with high strain rate, presumably due to dislocation activity, while fraction of random boundaries was high in the specimen deformed with low strain rate, and one observes conservation of initial texture. Further, the intragranular misorientation, transgranular misorientation and local orientation are analyzed in relation with the accommodation process during plastic deformation.