Colligan, K., Ucok, I., McTernan, K., Konkol, P.J., & Pickens, J.R. (2001, September). Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates. 3rd International Symposium.
Colligan K, Ucok I, McTernan K, et al. "Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates". 3rd International Symposium (Sep.2001).
Colligan, K, Ucok, I, McTernan, K, et al. "Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates". 3rd International Symposium (Sep.2001).
Colligan K., Ucok I., McTernan K., Konkol P.J. and Pickens J.R.Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates. 3rd International Symposium. 2001 Sep; .
Colligan, et al 2001, 'Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates', 3rd International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200109-5Paper01.pdf.
Colligan K, Ucok I, McTernan K, Konkol PJ, Pickens JR. Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates. 3rd International Symposium. 2001;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200109-5Paper01.pdf.
Colligan KK, Ucok II, McTernan KK, Konkol PJ , Pickens JR . Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates. 3rd International Symposium. 2001 Sep;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200109-5Paper01.pdf.
Friction stir welding of thick section 5083-H131 and 2195-T8P4 aluminum plates
- Colligan K. ,
- Ucok I. ,
- McTernan K. ,
- et al
- Colligan K. ,
- Ucok I. ,
- McTernan K. ,
- Konkol P.J. and
- Pickens J.R.
September 2001
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Description
Thick section friction stir welds were made in 25.4 mm (1 in) 5083-H131 and in 18.4 mm 2195-T8P4 aluminium alloy plates by single-pass friction stir welding (FSW) using new welding tool designs. The alloys are used for aerospace applications. The shoulder of the welding tool was constructed from H13 tool steel and the pin was made from a Ni-Co alloy (MP159). The effects of travel speed and rotational speed were examined. Weld specimens were subjected to tensile testing and metallographic analysis. Weld quality was evaluated by radiography. Microhardness was determined.
3rd International Symposium, 27-28 Sep 2001, Session 5: Process Development 2, Paper 01
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