Comparative analysis of damageability produced by powerful pulsed ion/plasma streams and laser radiation on the plasma-facing W samples

Parallel use of directed plasma/fast ion streams from Dense Plasma Focus and of laser radiation (in a free running and Q-switched modes) for irradiations of targets looks perspective for tests of materials designed to withstand extreme thermal loads in the mainstream fusion reactors with inertial an...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) England : 1993), 2018-09, Vol.150, p.20-29
Main Authors: Gribkov, V.A., Paduch, M., Zielinska, E., Demin, A.S., Demina, E.V., Kazilin, E.E., Latyshev, S.V., Maslyaev, S.A., Morozov, E.V., Pimenov, V.N.
Format: Article
Language:English
Subjects:
Blistering
Blisters
Bulk and surface damage
Comparative analysis
Dense plasma focus
Dense plasmas
Flux density
Fusion reactors
Integral damage factor
Laser
Lasers
Mathematical models
Microcracks
Plasma focus
Porosity
Radiation
Radiation damage
Radiation tests
Streams
Surface chemistry
Surface layers
Thermal analysis
Tungsten
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Summary:Parallel use of directed plasma/fast ion streams from Dense Plasma Focus and of laser radiation (in a free running and Q-switched modes) for irradiations of targets looks perspective for tests of materials designed to withstand extreme thermal loads in the mainstream fusion reactors with inertial and magnetic plasma confinement. It is so because of a wide range of power flux densities and pulse durations generated by them. Tungsten is counted as the most appropriate material for the plasma-facing components. Main features of degradation of the surface layer of double forged tungsten were determined at different conditions of its irradiation by these streams. Chief similarities and differences in damageability obtained in the regimes are fixed – blisters, craters, porosity, microcracks, and discontinuity flaws etc. – that are peculiar characteristics for each mode of irradiation. The observed resemblances and dissimilarities that are specific for each regime of irradiation are explained with the help of numerical modelling of the treatment processes. It is shown that a so-called Integral Damage Factor may be used only in restricted ranges of parameters of an irradiation. It was found that in the regime of irradiation with the well-developed gas dynamic motion of secondary plasma the overall energy of radiation will be spent preferentially either on mass removal from the material's surface or on heating of a small amount of matter to high temperature (and consequently into its fast movement) depending on power flux density of radiation and its pulse structure. •Main features of degradation of the surface layer of double forged tungsten were determined at different conditions of irradiation by plasma/ion streams in a DPF and by laser radiation working in the FR (with long pulses) and QS (with short pulses) regimes.•The observed dissimilarities that are specific for each regime of irradiation are explained with the help of qualitative analysis, estimations and by numerical modelling.•It is shown that a so-called Integral Damage Factor may be used only within the restricted ranges of parameters of an irradiation.•It was found that in the regime of irradiation with the well-developed gas dynamic motion of secondary plasma energy of radiation will be spent preferentially either on large masses removed from the material's surface or on heating of a small amount of matter to high temperature (and consequently into its fast movement) depending on power flux density
ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2018.03.020