Add to ORKGBeryllium oxide based reactor fuel elements may be required to operate in moist air at temperatures in the range 1000 - 1200oC. In this environment, unprotected fuel elements would lose excessive amounts of BeO as Be(OH)2. Methods of preventing this loss by means of non-reactive coatings are considered. By application of established coating principles and also criteria specific to this requirement, the most promising materials are found to be Al2O3 and MgAl2O4. MgAl2O4 would be difficult to apply to form a dense crack-free coating; Al2O3 could be applied by various methods, the best of which appear to be isostatic pressing, slip casting or spraying, and vapour deposition. It is recommended that a detailed thermal stress analysis be carried ...
The neutron multiplier is indispensable for generation of tritium that is a fuel of fusion reactors....
The Experimental Beryllium Oxide Reactor is described. The configurations and properties of BeO bloc...
High-temperature tensile and thermal-shock investigations were conducted on beryllium oxide and bery...
Beryll ium oxide based reactor fuel elements may be required to operate in moist air at temperatures...
The use of beryllia as the basis of an all-ceramic fuel element for high-temperature reactors cooled...
In recent years, beryllium oxide has been widely utilized in multiple compact nuclear reactors as th...
Fission gas release from spherical BeO-based fuel elements designed for the conceptual ABORIGINE rea...
Several coating techniques were studied with the objective of protecting beryllium neutron reflector...
Fuelled beryllium oxide spheres, with a thin layer of porous BeO separating the fuelled core from th...
The two materials studied in depth which appear to have the most promise in a Prometheus reflector a...
Beryllium is a favoured canning and/or moderating material in the proposed Australian High Temperatu...
ALUMINIUM, magnesium and beryllium have been used extensively in research and power reacto...
A general discussion on glaze—type coatings for fission product retention within BeO spheres fuelled...
Considerations affecting the design of dispersion-type ceramic fuel materials are discussed. The res...
A demonstration (DEMO) fusion reactor will require a huge amount of beryllium (Be) with approximatel...
The neutron multiplier is indispensable for generation of tritium that is a fuel of fusion reactors....
The Experimental Beryllium Oxide Reactor is described. The configurations and properties of BeO bloc...
High-temperature tensile and thermal-shock investigations were conducted on beryllium oxide and bery...
Beryll ium oxide based reactor fuel elements may be required to operate in moist air at temperatures...
The use of beryllia as the basis of an all-ceramic fuel element for high-temperature reactors cooled...
In recent years, beryllium oxide has been widely utilized in multiple compact nuclear reactors as th...
Fission gas release from spherical BeO-based fuel elements designed for the conceptual ABORIGINE rea...
Several coating techniques were studied with the objective of protecting beryllium neutron reflector...
Fuelled beryllium oxide spheres, with a thin layer of porous BeO separating the fuelled core from th...
The two materials studied in depth which appear to have the most promise in a Prometheus reflector a...
Beryllium is a favoured canning and/or moderating material in the proposed Australian High Temperatu...
ALUMINIUM, magnesium and beryllium have been used extensively in research and power reacto...
A general discussion on glaze—type coatings for fission product retention within BeO spheres fuelled...
Considerations affecting the design of dispersion-type ceramic fuel materials are discussed. The res...
A demonstration (DEMO) fusion reactor will require a huge amount of beryllium (Be) with approximatel...
The neutron multiplier is indispensable for generation of tritium that is a fuel of fusion reactors....
The Experimental Beryllium Oxide Reactor is described. The configurations and properties of BeO bloc...
High-temperature tensile and thermal-shock investigations were conducted on beryllium oxide and bery...