In this work, we propose a new mechanistic model for the treatment of helium behaviour at grain boundaries in oxide nuclear fuel. The model pairs rate-theory description of helium intra-granular behaviour (diffusion towards grain boundaries, trapping in spherical bubbles, thermal re-solution), developed in a first step, with rate-theory description of helium inter-granular behaviour (diffusion towards grain edges, trapping in lenticular bubbles, thermal re-solution). The proposed model has been implemented in SCIANTIX (meso-scale software designed for coupling with fuel performance codes) and validated against thermal desorption experiments performed on doped UO2 samples annealed at different temperatu...
This thesis presents a first principle approach to model helium diffusionand retention in molybdenum...
UO2 samples doped with 0.1 wt.% plutonium oxide have been investigated with the aim to study the alp...
The description of intra-granular fission gas behaviour is a fundamental part of any model for the p...
In this work, we propose a new mechanistic model for the treatment of helium behaviour ...
In this work, we propose a new mechanistic model for the treatment of helium behaviour at the grain ...
In this work, we propose a new mechanistic model for the treatment of helium behaviour which include...
Physics-based meso-scale models of fission gas behaviour for fuel performance codes currently consid...
The present thesis gives a contribution to the study and the modelling of the helium behaviour (from...
Besides recent progresses in the physics-based modelling of fission gas and helium behaviour, the sc...
Large quantities of helium are produced from α-decay of actinides in nuclear fuels during its in-pil...
This paper concerns the modelling and the assessment of inert gas behaviour (IGB) in UO2 nuclear fue...
Helium is relevant in determining nuclear fuel behaviour. It affects the performance of nuclear fuel...
UO2 samples doped with 0.1 wt.% plutonium oxide have been investigated with the aim to study alpha-d...
This final report summarizes the work performed by Politecnico di Milano (POLIMI) in the FUMAC Proje...
This thesis presents a first principle approach to model helium diffusionand retention in molybdenum...
UO2 samples doped with 0.1 wt.% plutonium oxide have been investigated with the aim to study the alp...
The description of intra-granular fission gas behaviour is a fundamental part of any model for the p...
In this work, we propose a new mechanistic model for the treatment of helium behaviour ...
In this work, we propose a new mechanistic model for the treatment of helium behaviour at the grain ...
In this work, we propose a new mechanistic model for the treatment of helium behaviour which include...
Physics-based meso-scale models of fission gas behaviour for fuel performance codes currently consid...
The present thesis gives a contribution to the study and the modelling of the helium behaviour (from...
Besides recent progresses in the physics-based modelling of fission gas and helium behaviour, the sc...
Large quantities of helium are produced from α-decay of actinides in nuclear fuels during its in-pil...
This paper concerns the modelling and the assessment of inert gas behaviour (IGB) in UO2 nuclear fue...
Helium is relevant in determining nuclear fuel behaviour. It affects the performance of nuclear fuel...
UO2 samples doped with 0.1 wt.% plutonium oxide have been investigated with the aim to study alpha-d...
This final report summarizes the work performed by Politecnico di Milano (POLIMI) in the FUMAC Proje...
This thesis presents a first principle approach to model helium diffusionand retention in molybdenum...
UO2 samples doped with 0.1 wt.% plutonium oxide have been investigated with the aim to study the alp...
The description of intra-granular fission gas behaviour is a fundamental part of any model for the p...
