% Start MTEX first in Matlab tmp = matlab.desktop.editor.getActive; cd(fileparts(tmp.Filename)); symmetry = {crystalSymmetry('m-3m', [1 1 1], 'mineral', 'Iron', 'color', 'light blue')} % plotting convention setMTEXpref('xAxisDirection','north'); setMTEXpref('zAxisDirection','outOfPlane'); lattice_types = {'BCC','FCC'}; models = {'Bain','GT','GT_prime','KS','NW','Pitsch'}; rotation = containers.Map; rotation('BCC') = 'Passive Rotation'; rotation('FCC') = 'Active Rotation'; for lattice = lattice_types for p = 0:length(models)/3-1 EBSD_data = {loadEBSD(strcat (lattice,'_',models{p*3+1},'.txt'),symmetry,'interface','generic',... 'ColumnNames', { 'phi1' 'Phi' 'phi2' 'x' 'y'}, 'Bunge', rotation(char(lattice))), loadEBSD(strcat(lattice,'_',models{p*3+2},'.txt'),symmetry,'interface','generic',... 'ColumnNames', { 'phi1' 'Phi' 'phi2' 'x' 'y'}, 'Bunge', rotation(char(lattice))), loadEBSD(strcat(lattice,'_',models{p*3+3},'.txt'),symmetry,'interface','generic',... 'ColumnNames', { 'phi1' 'Phi' 'phi2' 'x' 'y'}, 'Bunge', rotation(char(lattice)))} h = [Miller(1,0,0,symmetry{1}),Miller(1,1,0,symmetry{1}),Miller(1,1,1,symmetry{1})]; % 3 pole figures plotPDF(EBSD_data{1}.orientations,h,'MarkerSize',5,'MarkerColor','r','DisplayName',models{p*3+1}) hold on plotPDF(EBSD_data{2}.orientations,h,'MarkerSize',4,'MarkerColor','b','DisplayName',models{p*3+2}) plotPDF(EBSD_data{3}.orientations,h,'MarkerSize',3,'MarkerColor','g','DisplayName',models{p*3+3}) legend('show','location','southoutside','Interpreter', 'none') orient('landscape') print('-bestfit',strcat(int2str(p+1),'_',char(lattice),'.pdf'),'-dpdf') close end end