Desrayaud, C., Heurtier, P., Allehaux, D., & Montheillet, F. (2004, September). Thermomechanical and microstructural modelling of the friction stir welding process. 5th International Symposium.
Desrayaud C, Heurtier P, Allehaux D, et al. "Thermomechanical and microstructural modelling of the friction stir welding process". 5th International Symposium (Sep.2004).
Desrayaud, C, Heurtier, P, Allehaux, D, et al. "Thermomechanical and microstructural modelling of the friction stir welding process". 5th International Symposium (Sep.2004).
Desrayaud C., Heurtier P., Allehaux D. and Montheillet F.Thermomechanical and microstructural modelling of the friction stir welding process. 5th International Symposium. 2004 Sep; .
Desrayaud, et al 2004, 'Thermomechanical and microstructural modelling of the friction stir welding process', 5th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200409-2APaper01.pdf.
Desrayaud C, Heurtier P, Allehaux D, Montheillet F. Thermomechanical and microstructural modelling of the friction stir welding process. 5th International Symposium. 2004;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200409-2APaper01.pdf.
Desrayaud CC, Heurtier PP, Allehaux DD, Montheillet FF. Thermomechanical and microstructural modelling of the friction stir welding process. 5th International Symposium. 2004 Sep;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200409-2APaper01.pdf.
Thermomechanical and microstructural modelling of the friction stir welding process
- Desrayaud C. ,
- Heurtier P. ,
- Allehaux D. ,
- et al
- Desrayaud C. ,
- Heurtier P. ,
- Allehaux D. and
- Montheillet F.
September 2004
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Thermomechanical and microstructural modelling were performed for the friction stir welding process, simulating the thermal diffusion during and after welding (in the cooling stage), and comparing the results with experimental data obtained for friction stir welded 2024 aluminium alloy plate (10 mm thickness). Thermal cycle temperature values, strain and strain rate for each weld zone (nugget, thermomechanically affected zone and HAZ) were used as input data to account for microstructural evolutions (grain and subgrain sizes) in continuous dynamic recrystallisation and static recrystallisation modules.
5th International Symposium, 14-16 Sep 2004, Session 2A: Modelling/Metallurgy, Paper 01
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