Simar, A., Pardoen, T., & de Meester, B. (2004, September). Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys. 5th International Symposium.
Simar A, Pardoen T and de Meester B. "Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys". 5th International Symposium (Sep.2004).
Simar, A, Pardoen, T and de Meester, B. "Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys". 5th International Symposium (Sep.2004).
Simar A., Pardoen T. and de Meester B.Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys. 5th International Symposium. 2004 Sep; .
Simar, Pardoen & de Meester 2004, 'Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys', 5th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200409-10BPaper03.pdf.
Simar A, Pardoen T, de Meester B. Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys. 5th International Symposium. 2004;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200409-10BPaper03.pdf.
Simar AA, Pardoen TT, de Meester BB. Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys. 5th International Symposium. 2004 Sep;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200409-10BPaper03.pdf.
Influence of friction stir welding parameters on the power input and temperature distribution in aluminium alloys
- Simar A. ,
- Pardoen T. and
- de Meester B.
- Simar A. ,
- Pardoen T. and
- de Meester B.
September 2004
Repository
Description
Friction stir welding was conducted on Al alloy 6005A-T6 plates of 6 mm thickness. The power input was determined from torque measurements. The effects of advancing speed and rotation speed on total power input were examined. Thermal cycles were measured close to the weld centreline using thermocouples. A finite element model of the friction stir welding process was developed using ABAQUS. The distribution of the total power input between surface and volume heat sources was assessed and the contact between tool and workpiece was investigated. There was good agreement between measured and predicted thermal cycles.
5th International Symposium, 14-16 Sep 2004, Session 10B: Modelling, Paper 03
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