Statistical Methods for Quantification and Segmentation of Material Microstructure from 3D X-ray Tomography Image Data
EO Brenne - 2021 - orbit.dtu.dk
The structure of a material at the microscale is of great importance for its macroscopic
properties. Accurate quantification of the microstructure is therefore crucial for the …
properties. Accurate quantification of the microstructure is therefore crucial for the …
Applications of x-ray computed microtomography to material science: devices and prespectives
S Favretto - 2009 - openstarts.units.it
The three-dimensional visualization of the inner microstructural features of objects and
materials is an aspect of relevant interest for a wide range of scientific and industrial …
materials is an aspect of relevant interest for a wide range of scientific and industrial …
Statistical segmentation and porosity quantification of 3d x-ray microtomography
High-resolution x-ray micro-tomography is used for imaging of solid materials at micrometer
scale in 3D. Our goal is to implement nondestructive techniques to quantify properties in the …
scale in 3D. Our goal is to implement nondestructive techniques to quantify properties in the …
Direct extraction of spatial correlation functions from limited x-ray tomography data for microstructural quantification
Accurately quantifying the microstructure of a heterogeneous material is crucial to
establishing quantitative structure-property relations for material optimization and design …
establishing quantitative structure-property relations for material optimization and design …
Reconstruction of heterogeneous materials via stochastic optimization of limited-angle X-ray tomographic projections
X-ray tomography has provided a non-destructive means for microstructure characterization
in three and four dimensions. A stochastic procedure to accurately reconstruct material …
in three and four dimensions. A stochastic procedure to accurately reconstruct material …
Microstructural quantification and property prediction using limited X-ray tomography data
X-ray tomography has provided a non-destructive means for microstructure characterization
in three dimensional (3D) and four dimensional (4D)(ie, structural evolution over time), in …
in three dimensional (3D) and four dimensional (4D)(ie, structural evolution over time), in …
A physical model for microstructural characterization and segmentation of 3D tomography data
We present a novel method for characterizing the microstructure of a material from
volumetric datasets such as 3D image data from computed tomography (CT). The method is …
volumetric datasets such as 3D image data from computed tomography (CT). The method is …
Data challenges of in situ X-ray tomography for materials discovery and characterization
Since its development in the 1970s (Hounsfield, Br J Radiol 46 (552): 1016–1022, 1973)[1],
X-ray tomography has been used to study the three dimensional (3D) structure of nearly …
X-ray tomography has been used to study the three dimensional (3D) structure of nearly …
Microstructural Quantification, Property Prediction, and Stochastic Reconstruction of Heterogeneous Materials Using Limited X-Ray Tomography Data
H Li - 2017 - search.proquest.com
An accurate knowledge of the complex microstructure of a heterogeneous material is crucial
for quantitative structure-property relations establishment and its performance prediction and …
for quantitative structure-property relations establishment and its performance prediction and …
X-ray microtomography
EN Landis, DT Keane - Materials characterization, 2010 - Elsevier
In this tutorial, we describe X-ray microtomography as a technique to nondestructively
characterize material microstructure in three dimensions at a micron level spatial resolution …
characterize material microstructure in three dimensions at a micron level spatial resolution …