Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
solid oxide fuel cells. The project will span length scales, from materials discovery, including with computational approaches, through mechanical properties and microstructure optimisation
-
steps of an ISOL facility. This is normally worked out through carefully selecting the target material compound (e.g. oxide, carbide or metal form) and engineer a microstructure which contains an
-
lead to out-of-specification fuel pellets. Furthermore, the fuel microstructure, density, porosity, and stoichiometry, which are vital parameters for in-pile performance and licensing, are critically
-
the evolution of a stone based on its properties and conditions within a structure. A progressive consideration of microstructural heterogeneities can be considered as the experimental work progresses
-
electrification strategy, the research aims to develop a multidisciplinary framework that combines microstructure modeling, machine learning, and probabilistic simulation to link manufacturing parameters, foam
-
Engineering. With the support of the National Laboratory of Solid State Microstructures and the Frontier Science Center for Critical Earth Materials Cycling, SSER is striving to fulfill the strategic needs
-
the microstructure of system The work will be carried out at the IRCER laboratory (Institut de Recherche sur les Céramiques - UMR CNRS 7315) in Limoges (Centre Européen de la Céramique, 12 rue Atlantis, 87068 Limoges
-
- Experiments under X-ray tomography and image analysis (full fields measurements and microstructure characterisation) - mechanical characterisation testing The mission will take place at the 3SR laboratory
-
. The project will then involve: - X-ray micro-tomography imaging and segmenting the resulting 3D images with AI-based tools already available in the team. - Characterizing the microstructure (binder distribution
-
tested for mechanical durability and microstructural properties using techniques such as TGA, FTIR, and SEM. The study will then examine the fire response of concrete cubes and structural elements