Add to ORKGOne of the bottle necks for fusion to become a reality is the lack of materials able to withstand the harsh conditions taken place in a reactor environment. In particular, plasma facing materials (PFM) have to resist large radiation fluxes and thermal loads. Nowadays, tungsten is one of the most attractive materials proposed for PFM. However, it is known that the irradiation of tungsten with H leads to surface blistering and subsequent cracking and exfoliation which is unacceptable. In particular, these effects have been observed to be more severe when W is subjected to pulse irradiation
Nuclear fusion is one of the most promising concepts for future energy production, due to the almost...
AbstractIn this study, morphological, microstructural and phase changes of four types of tungsten ma...
Nuclear fusion is the most promising renewable energy source for the near future. It can provide a l...
Nanostructured tungsten has been proposed as a promising option for plasma facing materials in futur...
Plasma-facing materials (PFMs) for nuclear fusion, either in inertial confinement fusion (ICF) or in...
Tungsten remains a leading candidate for plasma facing component (PFC) in future fusion devices. Thi...
Tungsten is a candidate to be used as plasma facing materials in future fusion nuclear reactors. The...
Due to increasing energy demand and environmental concerns, developing cleaner and more efficient me...
Nuclear fusion is a great potential energy source that can provide a relatively safe and clean limit...
Tungsten (W) is considered a promising plasma-facing material for protecting the divertor of the ITE...
Design and studies of plasma facing material for a fusion reactor is an engineering challenge. The f...
One of the challenges in fusion reactors is the discovery of plasma facing materials capable of with...
The accumulation of defects, and in particular He bubbles, can have significant implications for the...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
This work discusses the response of ultrafine-grained tungsten materials to high-flux, high-fluence,...
Nuclear fusion is one of the most promising concepts for future energy production, due to the almost...
AbstractIn this study, morphological, microstructural and phase changes of four types of tungsten ma...
Nuclear fusion is the most promising renewable energy source for the near future. It can provide a l...
Nanostructured tungsten has been proposed as a promising option for plasma facing materials in futur...
Plasma-facing materials (PFMs) for nuclear fusion, either in inertial confinement fusion (ICF) or in...
Tungsten remains a leading candidate for plasma facing component (PFC) in future fusion devices. Thi...
Tungsten is a candidate to be used as plasma facing materials in future fusion nuclear reactors. The...
Due to increasing energy demand and environmental concerns, developing cleaner and more efficient me...
Nuclear fusion is a great potential energy source that can provide a relatively safe and clean limit...
Tungsten (W) is considered a promising plasma-facing material for protecting the divertor of the ITE...
Design and studies of plasma facing material for a fusion reactor is an engineering challenge. The f...
One of the challenges in fusion reactors is the discovery of plasma facing materials capable of with...
The accumulation of defects, and in particular He bubbles, can have significant implications for the...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
This work discusses the response of ultrafine-grained tungsten materials to high-flux, high-fluence,...
Nuclear fusion is one of the most promising concepts for future energy production, due to the almost...
AbstractIn this study, morphological, microstructural and phase changes of four types of tungsten ma...
Nuclear fusion is the most promising renewable energy source for the near future. It can provide a l...