[HTML][HTML] Materials to be used in future magnetic confinement fusion reactors: a review
R Alba, R Iglesias, MÁ Cerdeira - Materials, 2022 - mdpi.com
This paper presents the roadmap of the main materials to be used for ITER and DEMO class
reactors as well as an overview of the most relevant innovations that have been made in …
reactors as well as an overview of the most relevant innovations that have been made in …
An approach to evaluate the accuracy of interatomic potentials as applied to tungsten
IV Kosarev, SA Shcherbinin, AA Kistanov… - Computational Materials …, 2024 - Elsevier
Molecular dynamics (MD) is a powerful tool for modeling structural transformations in
metallic materials under irradiation, severe plastic deformation, laser processing, etc. The …
metallic materials under irradiation, severe plastic deformation, laser processing, etc. The …
Tungsten wall cratering under high-velocity dust impacts: Influence of impact angle and temperature
The integrity of plasma-facing components (PFCs) in fusion reactors is severely tested by
high-velocity dust collisions, which occur during explosive events such as runaway electron …
high-velocity dust collisions, which occur during explosive events such as runaway electron …
High-velocity dust impacts in plasma facing materials: Insights from molecular dynamics simulations
This research investigates the interaction between high-speed tungsten (W) dust and
plasma-facing components (PFCs) in fusion reactors, particularly focusing on W walls …
plasma-facing components (PFCs) in fusion reactors, particularly focusing on W walls …
[HTML][HTML] Wall cratering upon high velocity normal dust impact
P Tolias, M De Angeli, D Ripamonti… - Fusion Engineering and …, 2023 - Elsevier
Dust-wall high speed impacts, triggered by the termination of runaway electrons on plasma
facing components, constitute a source of erosion. Normal high velocity mechanical impacts …
facing components, constitute a source of erosion. Normal high velocity mechanical impacts …
[HTML][HTML] Normal high velocity solid dust impacts on tiles of tokamak-relevant temperature
M De Angeli, P Tolias, F Suzuki-Vidal… - Nuclear Materials and …, 2024 - Elsevier
Runaway electron incidence on plasma facing components triggers explosive events that
are accompanied by the expulsion of fast solid debris. Subsequent dust-wall high speed …
are accompanied by the expulsion of fast solid debris. Subsequent dust-wall high speed …
[HTML][HTML] Ti-Zr-Nb-(V) refractory alloy coatings deposited by high-power impulse magnetron sputtering: Structure, mechanical properties, oxidation resistance, and …
A Fraile, D Cavaleiro, A Bondarev… - Journal of Vacuum …, 2024 - pubs.aip.org
A series of TiZrNb (V) high entropy alloy-based metallic coatings have been deposited using
high-power impulse magnetron sputtering (HiPIMS), with variable V concentrations and …
high-power impulse magnetron sputtering (HiPIMS), with variable V concentrations and …
High velocity solid dust impacts on tiles of tokamak-relevant temperature
M De Angeli, P Tolias, F Suzuki-Vidal… - arXiv preprint arXiv …, 2024 - arxiv.org
Runaway electron incidence on plasma facing components triggers explosive events that
are accompanied by the expulsion of fast solid debris. Subsequent dust-wall high speed …
are accompanied by the expulsion of fast solid debris. Subsequent dust-wall high speed …
[HTML][HTML] Materials for Nuclear Technologies: Challenges, Problems and Solutions
B Lee, S Middleburgh, M Rushton, C Cockrell, T Davey… - 2023 - nubu.nu
Materials for Nuclear Technologies: Challenges, Problems and Solutions - Nuclear Futures
Bangor - Research Groups Skip to content Home Research Groups Materials Materials for …
Bangor - Research Groups Skip to content Home Research Groups Materials Materials for …