Performance of Graphites and Tungsten during Exposure to Pulsed Plasmas
- 1 May 1992
- journal article
- research article
- Published by Taylor & Francis in Fusion Technology
- Vol. 21 (3P2B) , 1852-1857
- https://doi.org/10.13182/fst92-a29988
Abstract
Heat fluences of 1–10 MJ/m2 and greater over 0.1–1 msec pulse durations are expected on the surfaces of plasma-facing components in large tokamaks during a plasma disruption. The formed vapor plasma (the boundary layer) absorbs a large fraction of the incident energy, and thus acts as a self protecting layer (vapor shield). Carbon materials (pyrolytic graphite and other graphite grades)) are used as plasma-facing components, and tungsten and refractory materials are potential candidates. The experimental test facility SIRENS has been used to expose carbon and tungsten materials to heat fluences between 0.2 and 6 MJ/m2 for 100 µs duration to characterize the performance of such materials under typical heat loading conditions.Keywords
This publication has 10 references indexed in Scilit:
- Time-dependent simulation of weakly nonideal plasmas in electrothermal launchersPhysics of Fluids B: Plasma Physics, 1991
- Simulation and Analysis of the Response of Carbon-Fiber Composites and Pyrolytic Graphites to Off-Normal High Heat LoadsFusion Technology, 1991
- Erosion and Redeposition of Divertor and Wall Materials During Abnormal EventsFusion Technology, 1991
- Time-dependent numerical simulation of ablation-controlled arcsIEEE Transactions on Plasma Science, 1990
- Vapor shielding and erosion of surfaces exposed to a high heat load in an electrothermal acceleratorIEEE Transactions on Plasma Science, 1989
- Vapor shielding of surfaces subjected to high heat fluxes during a plasma disruptionJournal of Nuclear Materials, 1989
- Theoretical and Experimental Studies of the Vapor Shielding Mechanism for Surfaces Subjected to High Heat FluxesFusion Technology, 1989
- Testing of coaxial railguns in high vacuumIEEE Transactions on Magnetics, 1986
- Thermochemical Data of Organic CompoundsPublished by Springer Nature ,1986
- Protection of walls from hard disruptions in large tokamaksNuclear Fusion, 1977