High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
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Development of a reliable high-heat-flux (HHF) technology is one of the crucial requirements of power exhaust strategy for a fusion reactor. The basel…
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
Thermal damage of tungsten-armored plasma-facing components under high heat flux loads
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
PDF) Recent progress in research on tungsten materials for nuclear fusion applications in Europe Bernd Gludovatz, S. Roberts, Charlotte Becquart, J. Aktaa, Michael Rieth, and T. Ahlgren
Thermal damage of tungsten-armored plasma-facing components under high heat flux loads
Influence of recrystallization on tungsten divertor monoblock under high heat flux
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
Thermal damage of tungsten-armored plasma-facing components under high heat flux loads
Nuclear analyses for the design of the ITER-like plasma facing components vertical targets of the DEMO divertor - ScienceDirect
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
PDF) Divertor conceptual designs for a fusion power plant
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
Self-passivating W-Cr-Y alloys as plasma-facing materials
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