In Situ X-Ray Video Microscopy as a Tool in Solidification Science

Over the last 20 years, time-resolved high-resolution x-ray imaging techniques have become established as methods of choice for in situ studies of solidification microstructure formation in metallic alloys. Using high-brilliance x-radiation delivered at modern synchrotrons, combined with the most re...

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Veröffentlicht in:	JOM (1989) 2012, Vol.64 (1), p.76-82
Hauptverfasser:	Mathiesen, R. H., Arnberg, L., Nguyen-Thi, H., Billia, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloy solidification Cameras Case studies Chemistry/Food Science Earth Sciences Engineering Environment Experiments Growth models Laboratories Microscopy Microstructure Physics Radiation Radiography Solids Studies Topography X-rays
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creator	Mathiesen, R. H. Arnberg, L. Nguyen-Thi, H. Billia, B.
description	Over the last 20 years, time-resolved high-resolution x-ray imaging techniques have become established as methods of choice for in situ studies of solidification microstructure formation in metallic alloys. Using high-brilliance x-radiation delivered at modern synchrotrons, combined with the most recent advances in x-ray cameras and optics, it is now possible to capture real-time video sequences with projection image resolutions down to 100 nm at frame rates of 20 Hz. This article presents some illustrative examples of the current capabilities of in situ x-ray video microscopy in terms of radiographic and topographic imaging as a platform for studying microstructure pattern formation, growth dynamics, and other topics related to metallic alloy solidification.
doi_str_mv	10.1007/s11837-011-0213-0
format	Article
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subjects	Alloy solidification Cameras Case studies Chemistry/Food Science Earth Sciences Engineering Environment Experiments Growth models Laboratories Microscopy Microstructure Physics Radiation Radiography Solids Studies Topography X-rays
title	In Situ X-Ray Video Microscopy as a Tool in Solidification Science
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