Dickerson, T., Shercliff, H.R., & Schmidt, H. (2003, May). A weld marker technique for flow visualization in friction stir welding. 4th International Symposium.
Dickerson T, Shercliff H R and Schmidt H. "A weld marker technique for flow visualization in friction stir welding". 4th International Symposium (May.2003).
Dickerson, T, Shercliff, H R and Schmidt, H. "A weld marker technique for flow visualization in friction stir welding". 4th International Symposium (May.2003).
Dickerson T., Shercliff H.R. and Schmidt H.A weld marker technique for flow visualization in friction stir welding. 4th International Symposium. 2003 May; .
Dickerson, Shercliff & Schmidt 2003, 'A weld marker technique for flow visualization in friction stir welding', 4th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200305-Poster01.pdf.
Dickerson T, Shercliff HR, Schmidt H. A weld marker technique for flow visualization in friction stir welding. 4th International Symposium. 2003;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200305-Poster01.pdf.
Dickerson TT, Shercliff HR , Schmidt HH. A weld marker technique for flow visualization in friction stir welding. 4th International Symposium. 2003 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200305-Poster01.pdf.
A weld marker technique for flow visualization in friction stir welding
- Dickerson T. ,
- Shercliff H.R. and
- Schmidt H.
- Dickerson T. ,
- Shercliff H.R. and
- Schmidt H.
May 2003
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The incorporation of strips of copper foil in friction stir welded aluminium alloy plate was evaluated for flow visualisation without disturbing the welding process. The strips, of 0.1 mm thickness, were placed in various longitudinal and transverse positions in aluminium alloy plate (2024-T3, 6082-T6 and 7075) and welds produced using a range of parameters, whilst measuring stresses on the tool and temperature distributions to calculate and monitor changes in the energy input. Distribution after welding was studied using radiography, x-ray tomography and metallography.
4th International Symposium, 14-16 May 2003, Poster Session, Paper 01
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