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NEA irradiation system ready to deploy at MITR
A new irradiation experimental system is ready for deployment. The rig, which is the focus of In-Core Real-Time Mechanical Testing of Structural Materials (INCREASE-I), an OECD Nuclear Energy Agency project, will be used to conduct stress-relaxation tests of stainless steel at the Massachusetts Institute of Technology Reactor (MITR), according to the OECD NEA.
Carlos A. Ordonez, Robert E. Peterkin, Jr.*
Fusion Science and Technology | Volume 32 | Number 4 | December 1997 | Pages 655-659
Technical Note | Special Section: Plasma Control Issues for Tokamaks / Fusion Reactor | doi.org/10.13182/FST97-A19910
Articles are hosted by Taylor and Francis Online.
In the worldwide controlled thermonuclear fusion research effort, ignition of a magnetically confined plasma is yet to be achieved. Consequently, it is not known whether a plasma's approach to ignition is associated with a change (degradation or enhancement) of the confinement of plasma energy. Knowledge of this, however, can have a significant impact on the design criteria (and thus cost) of the planned International Thermonuclear Experimental Reactor (ITER). Fast adiabatic compression for producing short-time scale ignited toroidal plasmas is proposed as a means to gain this knowledge using existing resources.