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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
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
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
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
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
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
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
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
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
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
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - 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
High-heat-flux performance limit of tungsten monoblock targets: Impact on the armor materials and implications for power exhaust capacity - ScienceDirect
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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