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![]() Therefore, it is necessary to perform additional chemical polishing on samples after they have been polished using abrasives. Mechanical grinding and polishing in routine preparation of polished samples (such as microprobe samples) results in significant damage to crystal lattices near the surface of most materials. Specialized Sample Preparation Requirements: EBSP's are generated at very shallow depths within the sample, so appropriate samples must be free of damage to the crystal lattices at the surface of the sample.TEM can yield excellent diffraction data with exceptionally high spatial resolution for individual crystals, but sample preparation is considerably more involved than it is for EBSD studies, and most TEM mounts can only be examined over an area that is relatively small compared with areas accessible using EBSD. EBSD data acquired using either a scanned electron beam, or (better) an automated stage and a stationary electron beam can include analyses of thousands of individual grains in a run accomplished in hours acquisition of data for 10's of thousands of individual spots in a single one-day run is routine in most laboratories. The spatial resolution can be on the order of several microns, which is much superior to resolution attainable using selected area channeling (SAC) techniques. The data give true 3-dimensional orientations for individual crystals, which is superior to optical pole figures which give 2-dimensional orientations. Unlike optical techniques, it is possible to acquire data for phases of all symmetries (even isotropic phases) and for opaque phases. Type caption here.These data can be used to make statistical studies of the microfabric of the sample, to reveal systematic textural relations between individual grains or phases, and even to determine relative abundances of phases in a polyphase sample.ĮBSD is unquestionably the fastest and most reliable way in which to acquire data for crystalline structure and orientation in a solid crystalline phase. Individual mineral grains can be selected for identification and determination of crystal orientation, or data may be acquired on a grid over a selected area of the surface of the sample to determine the identity, orientations, and spatial relations between a large number of grains. These data are used to identify the phase, to index the pattern, and to determine the orientation of the crystal from which the pattern was generated. The pattern of Kikuchi lines on the phosphor screen is electronically digitized and processed to recognize the individual Kikuchi lines. ![]() The optimal arrangement results when the camera is as close to the sample as possible while avoiding the possibility of collision between the sample surface and the delicate phosphor screen. It is inserted to within several mm of the surface of the inclined sample. The camera resides on a horizontally mounted motorized carriage. ![]() The detector is actually a camera equipped with a phosphor screen integrated with a digital frame grabber. The polished sample is placed in the SEM and inclined approximately 70 o relative to normal incidence of the electron beam.
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