Abstract
Abstract In neutron radiography and tomography, the image contrast is caused by a variation of the effective macroscopic cross-section over the sample volume. Narrowing the energy band of the polychromatic neutron beam in the cold energy range increases the image contrast significantly and opens an access to the crystallographic structure of the sample. Here, we show that crystallographic microstructures of welded stainless steel samples can be visualized and quantified in two and three dimensions by the energy selective neutron imaging. The energy selective neutron radiography maps preferred crystallite orientations over the sample and provides energy values of the highest image contrast. Furthermore, a high contrast neutron tomography visualizes preferred crystallite orientations over the whole macroscopic sample volume.
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