Add to ORKGA Beryllium Technology Update meeting was held at the Idaho National Laboratory on July 18, 2007. Participants came from the U.S., Japan, and Russia. There were two main objectives of this meeting. One was a discussion of current technologies for beryllium in fission reactors, particularly the Advanced Test Reactor and the Japan Materials Test Reactor, and prospects for material availability in the coming years. The second objective of the meeting was a discussion of a project of the International Science and Technology Center regarding treatment of irradiated beryllium for disposal. This paper highlights discussions held during that meeting and major conclusions reache
A demonstration (DEMO) fusion reactor will require a huge amount of beryllium (Be) with approximatel...
Since hydrogen generated via an oxidation reaction of beryllium (Be) with water vapor is explosive, ...
Beryllium (Be) and its alloys are one of the most important elements in mineral resources for fusion...
While most active research involving beryllium in the United States remains tied strongly to biologi...
Use of beryllium in fusion reactors has been considered for neutron multiplication in breeding blank...
The Advanced Test Reactor (ATR) at the Idaho National Laboratory (INL) began operation in 1967. It m...
As shown by recent developments beryllium has become one of the most important materials in the deve...
This is a preprint of a paper intended for publication in a journal or proceedings. Since changes ma...
The purpose of this research was to develop a process for decontaminating irradiated beryllium that ...
In response to the report ''Investigation of Beryllium Exposure Cases Discovered at the North Las Ve...
THE first industrial production of metal beryllium in the United States dates back to 1939, when Th...
"Metals, Ceramics, and Materials."Includes bibliographical references.Fabrication development of ber...
36th International SAMPE Technical Conference This is a preprint of a paper intended for publication...
On December 8, 1999, the Department of Energy (DOE) published Title 10 CFR 850 (hereafter referred t...
The subsurface radioactive disposal site located at the Idaho National Laboratory contains neutronac...
A demonstration (DEMO) fusion reactor will require a huge amount of beryllium (Be) with approximatel...
Since hydrogen generated via an oxidation reaction of beryllium (Be) with water vapor is explosive, ...
Beryllium (Be) and its alloys are one of the most important elements in mineral resources for fusion...
While most active research involving beryllium in the United States remains tied strongly to biologi...
Use of beryllium in fusion reactors has been considered for neutron multiplication in breeding blank...
The Advanced Test Reactor (ATR) at the Idaho National Laboratory (INL) began operation in 1967. It m...
As shown by recent developments beryllium has become one of the most important materials in the deve...
This is a preprint of a paper intended for publication in a journal or proceedings. Since changes ma...
The purpose of this research was to develop a process for decontaminating irradiated beryllium that ...
In response to the report ''Investigation of Beryllium Exposure Cases Discovered at the North Las Ve...
THE first industrial production of metal beryllium in the United States dates back to 1939, when Th...
"Metals, Ceramics, and Materials."Includes bibliographical references.Fabrication development of ber...
36th International SAMPE Technical Conference This is a preprint of a paper intended for publication...
On December 8, 1999, the Department of Energy (DOE) published Title 10 CFR 850 (hereafter referred t...
The subsurface radioactive disposal site located at the Idaho National Laboratory contains neutronac...
A demonstration (DEMO) fusion reactor will require a huge amount of beryllium (Be) with approximatel...
Since hydrogen generated via an oxidation reaction of beryllium (Be) with water vapor is explosive, ...
Beryllium (Be) and its alloys are one of the most important elements in mineral resources for fusion...