Add to ORKGW is a favorable material for protecting mechanical components such as thermal shields and divertor parts from plasma damage in nuclear fusion reactors. A W thick coating has been developed on AISI 420 martensitic stainless steel substrate by means of plasma spray technique. Plasma spraying has been used for its simplicity, the possibility to cover complex and extended surfaces and the relatively low cost. An appropriate interlayer has been optimized to increase the adhesion of W coating on the steel substrate and to provide a soft interface with intermediate thermal expansion coefficient for better thermo-mechanical compatibility. The present work describes and discusses the results of micro-chemical investigations on coating and interfa...
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...
W is a favorable material for protecting mechanical components such as thermal shields and divertor ...
W is a favorable material for protecting mechanical components such as thermal shields and divertor ...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
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...
To protect First-Wall components, made of reduced activation ferritic martensitic steel, against the...
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...
W is a favorable material for protecting mechanical components such as thermal shields and divertor ...
W is a favorable material for protecting mechanical components such as thermal shields and divertor ...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
This thesis describes the design, manufacture and characterisation of thick vacuum plasma sprayed tu...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
W is a promising material to use as protection for thermal shields in future nuclear fusion reactors...
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...
To protect First-Wall components, made of reduced activation ferritic martensitic steel, against the...
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...