Add to ORKGNuclear fusion is considered to be a promising energy source for the future. One of the biggest problems which has to be solved is the development of inner wall material of the fusion reactor. For the inner parts which will be exposed to high levels of heat and particle flux, a combination of tungsten layer on copper parts was proposed. Tungsten is refractory material resistant to high heat and particle flux, while copper can efficiently remove heat due to its high thermal conductivity. But high stress concentration on the materials interface can occur due to the thermal expansion coefficient (CTE) mismatch of both materials when exposed to high temperatures. Therefore plasma spraying is promising technology for this application. One of t...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
Tungsten (W) is a material which has the highest melting point of 3422 ℃ among metals. Therefore whe...
As structural materials for future fusion power plants, reduced activation ferritic martensitic stee...
Tungsten is a promising armour material for plasma facing components of nuclear fusion reactors beca...
As structural materials for future fusion power plants, reduced activation ferritic martensitic stee...
During reactor operation the plasma-facing materials have to fulfil very complex and sometimes contr...
Thanks to its unique properties such as high melting point and density, tungsten and tungsten-based ...
Resistance for repetitive pulse heat load and vacuum properties of F82H steel protected by plasma-sp...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Tungsten powders, 20 – 100 µm in size, were melted in the jet of thermal plasma generated by a water...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
Tungsten (W) is a material which has the highest melting point of 3422 ℃ among metals. Therefore whe...
As structural materials for future fusion power plants, reduced activation ferritic martensitic stee...
Tungsten is a promising armour material for plasma facing components of nuclear fusion reactors beca...
As structural materials for future fusion power plants, reduced activation ferritic martensitic stee...
During reactor operation the plasma-facing materials have to fulfil very complex and sometimes contr...
Thanks to its unique properties such as high melting point and density, tungsten and tungsten-based ...
Resistance for repetitive pulse heat load and vacuum properties of F82H steel protected by plasma-sp...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Tungsten powders, 20 – 100 µm in size, were melted in the jet of thermal plasma generated by a water...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...
Owing to its high melting point, favourable thermo-mechanical properties and good thermal conductivi...