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EBSD analysis of dislocations on DC-Spark sample after heat treatment (1.040 C in H 2, 2h) Anité Pérez Fontenla 28.01.2014.

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Presentation on theme: "EBSD analysis of dislocations on DC-Spark sample after heat treatment (1.040 C in H 2, 2h) Anité Pérez Fontenla 28.01.2014."— Presentation transcript:

1 EBSD analysis of dislocations on DC-Spark sample after heat treatment (1.040 C in H 2, 2h) Anité Pérez Fontenla 28.01.2014

2 Aim of the study: A deeper understanding of the dislocations role in the material response to the BKD’s could help us to understand why areas with same surface status are highly affected by the phenomena. A crucial aspect is to find a diagnostic technique which determines their presence and/or density; Dislocation presence (like a group concept) in the microstructure of the material can be studied using Electron Backscatter Diffraction (EBSD). This technique fulfills our following requirements:  Non destructive  Appropriate for 3D specimens  Provides a good combination of spatial and angular resolution  Relatively reduced time of data collection How?

3 If we focus an electron beam on a crystalline sample  e - disperse beneath the surface, diffracting among the crystallographic planes. The diffracted beam produces a pattern (EBSP) that can be imaged by placing a phosphor screen close to the specimen. How? EBSP are composed of intersecting bands (Kikuchi bands) that are directly related to the crystal lattice structure in the sampled region. To accommodate plastic deformation, the material generates dislocations which disturbs the structure of the lattice and that leads in a reduction of bands quality  Bands & dislocations?

4  That can be directly related with the residual strain and represented in a local misorientation map. As BKD phenomena are complex and not well known, the density of dislocations will be studied with a simpler case: a hardness indentation. How?

5 The average misorientation between every pixel and its surrounding pixels is calculated, and assigns the mean value to that pixel; Before micro-hardness test After micro-hardness test

6 What’s next? Check the reproducibility of the technique and obtaining statistics about the affected zone; Which part of the green area is due to dislocations and which one due to surface deformation?  interferometry?  AFM? Hardness indent nr2…successful!

7 Sub-grains or faceting?

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