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EBSD map GUI

This GUI allows to analyze quantitatively slip transmission across grain boundaries for an EBSD map.

The |matlab| function used to run the EBSD map GUI is : A_gui_plotmap.m

This includes:

Loading EBSD data

For more details about the format of the EBSD data, see also the page Experimental data.

./_pictures/gui/EBSD_map_setting.png

The different steps to load data into tge EBSD map GUI.

Smoothing GBs segments

The smoothing algorithm allows to decrease the total number of grains boundaries in order to speed up calculations and plots.

./_pictures/gui/EBSD_map_loading_smoothing.png

Screenshot of the EBSD map GUI with an EBSD map of near alpha phase Ti alloy a) before smoothing and b) after smoothing.

The |matlab| function used to smooth GBs is : interface_map_GB_segments_opti.m

Misorientation angle

./_pictures/gui/EBSD_map_misor.png

Screenshot of the EBSD map GUI with an EBSD map of near alpha phase Ti alloy (GBs color-coded in function of the maximum misorientation angle value).

m' parameter

./_pictures/gui/EBSD_map_max_mprime.png

Screenshot of the EBSD map GUI with an EBSD map of near alpha phase Ti alloy (GBs color-coded in function of the maximum m' value).

./_pictures/gui/EBSD_map_mprime_GSF.png

Screenshot of the EBSD map GUI with an EBSD map of near alpha phase Ti alloy (GBs color-coded in function of the maximum m' value obtained for slips with the highest generalized Schmid factor).

Residual Burgers vector

./_pictures/gui/EBSD_map_minRBV.png

Screenshot of the EBSD map GUI with an EBSD map of near alpha phase Ti alloy (GBs color-coded in function of the maximum residual Burgers vector value).

Schmid factor and slip trace analysis

./_pictures/gui/EBSD_map_max_mprime_SF_slip_traces.png

Screenshot of the EBSD map GUI with an EBSD map of near alpha phase Ti alloy (slip plane plotted inside grain and slip traces plotted around unit cells, both in function of the maximum Schmid factor calculated with a given stress tensor).