Abstract
It is obvious from the preceding chapters on applications of EBSD*, that the automated EBSD technique has become very important; it is being used within a very wide range of scientific topics and for all kinds of crystallographic materials. Also in many other scientific areas which are not covered here, the EBSD technique has proven to be essential. An example of this is studies of recrystallization where approximately 33% of the papers published in the proceedings of the recent international conference (REX′99, 1999) contain EBSD data.
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Cahn, J.W., and Hagel, W.C., 1962, Theory of the pearlite reaction, in: Decomposition ofAustenite by Diffusional Processes, V.F. Zackay and H.I. Aaronson eds., Interscience, New York, 131.
Engler, O., 1998, On the influence of orientation pinning on growth selection of recrystallization, Acta mater. 46:1555.
Hansen, N., and Juul Jensen, D., 1999, Development of microstructure in fcc metals during cold work, Phil. Trans. R. Soc. London A. 357:1447.
Humphreys, F.J., and Brough, I., 1999, EBSP with FEGSEM-issues, advances and applications, in Proc. Microscopy and Microanalysis 5:240.
Juul Jensen, D., 1992, Growth of nuclei with different crystallographic orientations during recrystallization, Scripta metali, mater. 27:533.
Juul Jensen, D., 1995, Growth rates and misorientation relationships between growing nuclei/grains and the surrounding deformed matrix during recrystallization, Acta metali, mater. 43:4117.
Juul Jensen, D., Kvick, Â., Lauridsen, E.M., Lienert, U., Margulies, L., Nielsen, S.F., and Poulsen, H.F., Plastic deformation and recrystallization studied by the 3D X-ray micro-scope, Proc. MRS 1999 Fall meeting Boston, Materials Research Society, Warrendale, in press.
Kral, M.V. and Spanos, G., 1999, Three dimensional analysis of proeutectoid cementite precipitates, Acta Mater. 47: 711.
Lauridsen, E.M., Juul Jensen, D., Lienert, U., and Poulsen, H.F., Kinetics of individual grains during recrystallization. Scripta Mater, in press.
Lienert, U., Grigull, S., Kvick, Â., Martins, R.V., Poulsen, H.F., Lauridsen, E.M., and Nielsen, S.F., Local strain measurement techniques in bulk materials, Proc. MRS 1999 Fall Meeting Boston, Materials Research Society, Pittsburgh, in press.
Lienert, U., Schulze, C, Honkimäki, V., Tschentscher, T., Garbe, S., Hignette, O., Horsewell, A., Lingham, M., Poulsen, H.F., Thomsen, N.B., and Ziegler, E., 1998, Focussing optics for high-energy X-ray diffraction, J. Synch. Rad. 5: 226.
Lienert, U., Kvick, Â., and Poulsen, H.F., 1999, A high energy X-ray microscope structural characterization of bulk materials for the Local, Proc. 40 A1AA, St. Louis, 2067.
Mishin, O.V., and Huang, X., 1999, TEM study of twin segments is annealed copper, Mat. Sei. Forum, 294 – 296:401.
Mishin, O.V., Lauridsen, E.M., Krieger Lassen, N.C., Brückner, G., Tschentscher, T., Bay, B., Juul Jensen, D., and Poulsen, H.F., Application of high-energy synchrotron radiation for texture studies, J. Appl. Cryst. in press.
Nielsen, S.F., Wolf, A., Poulsen, H.F., Ohler, M., Lienert, U., and Owen, R.A., J. Sync. Rad., in press.
Nielsen, S.F., Juul Jensen, D., Lauridsen, E.M., and Poulsen, H.F. Submitted for publication.
Poulsen, H.F., Nielsen, S.F., Lauridsen, E.M., Lienert, U., Suter, R.M. and Juul Jensen, D., Three dimensional maps of polycrystalline materials, Submitted for publication. Proceedings 4th Int. Conf. on Recrystallization and related phenomena, REX’99, 1999, T. Sakai, and H.G. Suzuki, eds., The Japan Institute of Metals, Tokyo.
Proceedings 6th Conf. on Frontiers of Electron Microscopy in Materials Science, Ultramicroscopy 67, 1997.
Rändle, V., and Ralph, B., 1989, Local texture analysis associated with grain growth, Proc. Roy. Soc. A415:239.
Rollett, A.D. et al., 1999, Extraction of grain boundary energies from triple junction geometry, in Proc. Microscopy and Microanalysis 5:230.
Samajdar, I, and Doherty, R.D., 1995, Role of S [{123}<634>] orientation in the preferred nucleation of cube grains in recrystallization of fee metals, Scripta metali, mater. 32:845.
Vandermeer, R.A., and Juul Jensen, D., 1994, Modelling microstructural evolution of multiple texture components during recrystallization, Acta metali, mater. 42:2427.
Vandermeer, R.A., 1995, Analytical modelling of the kinetics of recrystallization, in: Proc. 16 th Riso Int. Symp. on Mat. Sci., N. Hansen et al. eds., Riso Nat. Lab., Roskilde, Denmark: 193.
Vandermeer, R.A., and Juul Jensen, D., 1995, Quantifying recrystallization nucleation and growth kinetics of cold-worked copper by microstructural analysis, Met. Trans. A26:2227.
Vatne, H.E., Daaland, O., and Nes, E., 1994, On the formation of cube texture in aluminium, Mat. Sei. Forum 157–162:1087.
Weiland H., and Hirsch, J.R., 1991, Microstructure and local texture in hot rolled aluminium, Textures and Microstructures, 14–18:647.
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Jensen, D.J. (2000). Three-Dimensional Orientation Imaging. In: Schwartz, A.J., Kumar, M., Adams, B.L. (eds) Electron Backscatter Diffraction in Materials Science. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-3205-4_8
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DOI: https://doi.org/10.1007/978-1-4757-3205-4_8
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