Add to ORKGTimely development of materials for the demanding fusion energy environment requires a broad range of advanced scientific tools, including advanced structural characterization methods. The current state-of-the-art and emerging capabilities in electron microscopy, atom probe tomography, neutron scattering and X-ray scattering are reviewed with respect to potential applications in fusion materials research and development. Recent dramatic advances in capabilities in all four of these characterization tools are transforming the spatial precision and quantitative information that can be extracted during struc-tural characterization. Examples include spectroscopic identification of single atoms in bulk materials, three-dimensional mapping of mil...
The rapid development of new materials and their application in an extremely wide variety of resear...
The objective of this work is to present recent advancements in transmission electron microscopy (TE...
In 2012 the diffraction community will celebrate 100 years since the prediction of X-ray diffraction...
The material characterization toolbox has recently experienced a number of parallel revolutionary ad...
For the realization of fusion as an energy source, the development of suitable materials is one of t...
For the realization of fusion as an energy source, the development of suitable materials is one of t...
Material characterization is challenged by continuously decreasing device dimensions placing signifi...
This review addresses new developments in the emerging area of "atom probe crystallography", a mater...
Microstructural characterization is a vital part in materials science, as it plays a key role in und...
There is an increasing need to understand materials phenomena and processes at the nanoscale as engi...
The high brilliance of synchrotron radiation has allowed us to combine microscopy with X-ray analyti...
The collection focuses on the advancements of characterization of minerals, metals, and materials an...
The behavior of nanoscale materials can change rapidly with time either because the environment chan...
Thermal protection systems are commonly comprised of composite materials, often with highly anisotro...
The development of increasingly complex, multiphase, and micro-scale composite materials has led to ...
The rapid development of new materials and their application in an extremely wide variety of resear...
The objective of this work is to present recent advancements in transmission electron microscopy (TE...
In 2012 the diffraction community will celebrate 100 years since the prediction of X-ray diffraction...
The material characterization toolbox has recently experienced a number of parallel revolutionary ad...
For the realization of fusion as an energy source, the development of suitable materials is one of t...
For the realization of fusion as an energy source, the development of suitable materials is one of t...
Material characterization is challenged by continuously decreasing device dimensions placing signifi...
This review addresses new developments in the emerging area of "atom probe crystallography", a mater...
Microstructural characterization is a vital part in materials science, as it plays a key role in und...
There is an increasing need to understand materials phenomena and processes at the nanoscale as engi...
The high brilliance of synchrotron radiation has allowed us to combine microscopy with X-ray analyti...
The collection focuses on the advancements of characterization of minerals, metals, and materials an...
The behavior of nanoscale materials can change rapidly with time either because the environment chan...
Thermal protection systems are commonly comprised of composite materials, often with highly anisotro...
The development of increasingly complex, multiphase, and micro-scale composite materials has led to ...
The rapid development of new materials and their application in an extremely wide variety of resear...
The objective of this work is to present recent advancements in transmission electron microscopy (TE...
In 2012 the diffraction community will celebrate 100 years since the prediction of X-ray diffraction...