Application of tungsten-copper composite heat sink materials to plasma-facing component mock-ups
Müller, A v, Böswirth, B, Cerri, V, Greuner, H, Neu, R, Siefken, U, Visca, E, You, J H
Published in Physica scripta (01.01.2020)
Published in Physica scripta (01.01.2020)
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Journal Article
Melt infiltrated tungsten–copper composites as advanced heat sink materials for plasma facing components of future nuclear fusion devices
Muller, A.v., Ewert, D., Galatanu, A., Milwich, M., Neu, R., Pastor, J.Y., Siefken, U., Tejado, E., You, J.H.
Published in Fusion engineering and design (01.11.2017)
Published in Fusion engineering and design (01.11.2017)
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Journal Article
Material and component developments for the DEMO divertor using fibre reinforcement and additive manufacturing
Neu, R, Coenen, J W, Curzadd, B, Gietl, H, Greuner, H, Höschen, T, Hunger, K, Lürbke, R, Müller, Av, Riesch, J, Schlick, G, Siefken, U, Visca, E, You, JH
Published in Materials research express (01.11.2023)
Published in Materials research express (01.11.2023)
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Journal Article
The effects of heat treatment at temperatures of 1100 °C to 1300 °C on the tensile properties of high-strength drawn tungsten fibres
Müller, A. v., Ilg, M., Gietl, H., Höschen, T., Neu, R., Pintsuk, G., Riesch, J., Siefken, U., You, J.H.
Published in Nuclear materials and energy (01.08.2018)
Published in Nuclear materials and energy (01.08.2018)
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Journal Article