Rezaeinejad, S.S., Bor, T., Luckabauer, M., & Akkerman, R. (2024, May). Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing. 13th International Symposium.
Rezaeinejad S S, Bor T, Luckabauer M, et al. "Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing". 13th International Symposium (May.2024).
Rezaeinejad, S S, Bor, T, Luckabauer, M, et al. "Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing". 13th International Symposium (May.2024).
Rezaeinejad S.S., Bor T., Luckabauer M. and Akkerman R.Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing. 13th International Symposium. 2024 May; .
Rezaeinejad, et al 2024, 'Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing', 13th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-3Paper01.pdf.
Rezaeinejad SS, Bor T, Luckabauer M, Akkerman R. Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing. 13th International Symposium. 2024;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-3Paper01.pdf.
Rezaeinejad SS , Bor TT, Luckabauer MM, Akkerman RR. Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing. 13th International Symposium. 2024 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-202405-3Paper01.pdf.
Effects of post-deposition heat treatment on an Al-Mg-Si alloy produced by friction screw extrusion additive manufacturing
- Rezaeinejad S.S. ,
- Bor T. ,
- Luckabauer M. ,
- et al
- Rezaeinejad S.S. ,
- Bor T. ,
- Luckabauer M. and
- Akkerman R.
May 2024
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This study explores the microstructural evolution of AA6060 builds that were fabricated via the recently developed Friction Screw Extrusion Additive Manufacturing (FSEAM) approach, and the role of a subsequent post-manufacturing ageing heat treatment on the mechanical properties. FSEAM is a solid-state approach based on friction stir welding (FSW) principles that offers a promising solution for addressing critical challenges in fusion-based additive manufacturing of high-strength aluminium alloys. Wall-like builds were created using FSEAM with a range of deposition velocities from 100 to 300 mm/min.
13th International Symposium, 21-23 May 2024, Session 3: Additive I, Paper 01
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