Holdsworth, S. (2024, May). CoreFlow friction stir channelling of copper for fusion energy applications. 13th International Symposium.
Holdsworth S. "CoreFlow friction stir channelling of copper for fusion energy applications". 13th International Symposium (May.2024).
Holdsworth, S. "CoreFlow friction stir channelling of copper for fusion energy applications". 13th International Symposium (May.2024).
Holdsworth S.CoreFlow friction stir channelling of copper for fusion energy applications. 13th International Symposium. 2024 May; .
Holdsworth 2024, 'CoreFlow friction stir channelling of copper for fusion energy applications', 13th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-12Paper02.pdf.
Holdsworth S. CoreFlow friction stir channelling of copper for fusion energy applications. 13th International Symposium. 2024;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-12Paper02.pdf.
Holdsworth SS. CoreFlow friction stir channelling of copper for fusion energy applications. 13th International Symposium. 2024 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-12Paper02.pdf.
CoreFlow friction stir channelling of copper for fusion energy applications
- Holdsworth S.
- Holdsworth S.
May 2024
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Description
Fusion devices include plasma facing components consisting of copper-based heatsinks embedded with cooling channels to handle the high operational heat loads. Stationary shoulder friction stir channelling (SSFSC), trademarked as Coreflow®, is a novel sub-surface machining process which is currently being developed as an alternative manufacturing method for producing these embedded channels for fusion energy applications. SSFSC is able to create embedded channels in a single process step and produce more complex channel geometries, such as serpentines, as well as channels within curved surfaces.
13th International Symposium, 21-23 May 2024, Session 12: Plenary IV, Paper 02
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