X-ray tomography is a non-destructive technique which provides 3D information of materials. It is consequently very attractive in Materials Science since the relation between macroscopic properties and the micro-structure of a material is very frequently required. The aim of this paper is to present selected results obtained in various investigations of metallic materials such as superplastic deformation, materials in the semi-solid state and metallic foams. Depending on the studied features, several tomography analysis modes were used: conventional absorption mode, phase contrast and holotomography, a new technique, which provides the 3D distribution of the electron density in the bulk of the material. Furthermore micro-tomography enables one to perform in situ experiments either by using a mechanical test machine or a furnace.
Description
ScienceDirect.com - Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms - X-ray micro-tomography an attractive characterisation technique in materials science
%0 Journal Article
%1 Salvo2003273
%A Salvo, L
%A Cloetens, P
%A Maire, E
%A Zabler, S
%A Blandin, J.J
%A Buffière, J.Y
%A Ludwig, W
%A Boller, E
%A Bellet, D
%A Josserond, C
%D 2003
%J Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
%K data_analysis imaging morphology segmentation tomography x-rays
%N 0
%P 273 - 286
%R 10.1016/S0168-583X(02)01689-0
%T X-ray micro-tomography an attractive characterisation technique in materials science
%U http://www.sciencedirect.com/science/article/pii/S0168583X02016890
%V 200
%X X-ray tomography is a non-destructive technique which provides 3D information of materials. It is consequently very attractive in Materials Science since the relation between macroscopic properties and the micro-structure of a material is very frequently required. The aim of this paper is to present selected results obtained in various investigations of metallic materials such as superplastic deformation, materials in the semi-solid state and metallic foams. Depending on the studied features, several tomography analysis modes were used: conventional absorption mode, phase contrast and holotomography, a new technique, which provides the 3D distribution of the electron density in the bulk of the material. Furthermore micro-tomography enables one to perform in situ experiments either by using a mechanical test machine or a furnace.
@article{Salvo2003273,
abstract = {X-ray tomography is a non-destructive technique which provides 3D information of materials. It is consequently very attractive in Materials Science since the relation between macroscopic properties and the micro-structure of a material is very frequently required. The aim of this paper is to present selected results obtained in various investigations of metallic materials such as superplastic deformation, materials in the semi-solid state and metallic foams. Depending on the studied features, several tomography analysis modes were used: conventional absorption mode, phase contrast and holotomography, a new technique, which provides the 3D distribution of the electron density in the bulk of the material. Furthermore micro-tomography enables one to perform in situ experiments either by using a mechanical test machine or a furnace. },
added-at = {2013-04-25T14:08:14.000+0200},
author = {Salvo, L and Cloetens, P and Maire, E and Zabler, S and Blandin, J.J and Buffière, J.Y and Ludwig, W and Boller, E and Bellet, D and Josserond, C},
biburl = {https://www.bibsonomy.org/bibtex/20f514ab1cdc22b57a28fb742aec0c6ed/alex_ruff},
description = {ScienceDirect.com - Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms - X-ray micro-tomography an attractive characterisation technique in materials science},
doi = {10.1016/S0168-583X(02)01689-0},
interhash = {d9444d8ee8c09c6dfd932e46e1b51344},
intrahash = {0f514ab1cdc22b57a28fb742aec0c6ed},
issn = {0168-583X},
journal = {Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms },
keywords = {data_analysis imaging morphology segmentation tomography x-rays},
note = {Proceedings of the E-MRS 2002 Symposium I on Synchrotron Radiation and Materials Science },
number = 0,
pages = {273 - 286},
timestamp = {2013-04-25T14:08:14.000+0200},
title = {X-ray micro-tomography an attractive characterisation technique in materials science },
url = {http://www.sciencedirect.com/science/article/pii/S0168583X02016890},
volume = 200,
year = 2003
}