Simar, A., Brechet, Y., de Meester, B., Denquin, A., & Pardoen, T. (2010, May). Integrated modelling of friction stir welding in 6xxx series aluminium alloys. 8th International Symposium.
Simar A, Brechet Y, de Meester B, et al. "Integrated modelling of friction stir welding in 6xxx series aluminium alloys". 8th International Symposium (May.2010).
Simar, A, Brechet, Y, de Meester, B, et al. "Integrated modelling of friction stir welding in 6xxx series aluminium alloys". 8th International Symposium (May.2010).
Simar A., Brechet Y., de Meester B., Denquin A. and Pardoen T.Integrated modelling of friction stir welding in 6xxx series aluminium alloys. 8th International Symposium. 2010 May; .
Simar, et al 2010, 'Integrated modelling of friction stir welding in 6xxx series aluminium alloys', 8th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-201005-3APaper03.pdf.
Simar A, Brechet Y, de Meester B, Denquin A, Pardoen T. Integrated modelling of friction stir welding in 6xxx series aluminium alloys. 8th International Symposium. 2010;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-201005-3APaper03.pdf.
Simar AA, Brechet YY, de Meester BB, Denquin AA, Pardoen TT. Integrated modelling of friction stir welding in 6xxx series aluminium alloys. 8th International Symposium. 2010 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-201005-3APaper03.pdf.
Integrated modelling of friction stir welding in 6xxx series aluminium alloys
- Simar A. ,
- Brechet Y. ,
- de Meester B. ,
- et al
- Simar A. ,
- Brechet Y. ,
- de Meester B. ,
- Denquin A. and
- Pardoen T.
May 2010
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A fully integrated approach to facilitate optimisation of the friction stir welding (FSW) process was developed, incorporating a model for the FSW process, coupling material flow and thermal analysis, a model for precipitation evolution, a microstructure based strength and strain hardening model, and a micromechanical model for damage evolution, and applied to 6005A-T6 aluminium alloys (80 mm thickness). A pseudo-stationary process model was invoked to predict temperature distributions during welding. Model predictions were compared with experimental tensile test results and electron microscopy microstructure observations.
8th International Symposium, 18-20 May 2010, Session 3A: Modelling 1, Paper 03
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