Ding, R.J., & Oelgoetz, P.A. (1999, June). Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195. 1st International Symposium.
Ding R J and Oelgoetz P A. "Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195". 1st International Symposium (Jun.1999).
Ding, R J and Oelgoetz, P A. "Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195". 1st International Symposium (Jun.1999).
Ding R.J. and Oelgoetz P.A.Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195. 1st International Symposium. 1999 Jun; .
Ding & Oelgoetz 1999, 'Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195', 1st International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-199906-1Paper01.pdf.
Ding RJ, Oelgoetz PA. Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195. 1st International Symposium. 1999;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-199906-1Paper01.pdf.
Ding RJ , Oelgoetz PA . Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195. 1st International Symposium. 1999 Jun;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-199906-1Paper01.pdf.
Mechanical property analysis in the retracted pin-tool (RPT) region of friction stir welded (FSW) aluminum-lithium 2195
- Ding R.J. and
- Oelgoetz P.A.
- Ding R.J. and
- Oelgoetz P.A.
June 1999
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Description
A friction stir welding tool with a variable length probe (suitable for variable thickness joints, repairs and circumferential welding) was developed and evaluated for the welding of aluminium alloy 2195. Tapered sheet, of both increasing and decreasing thickness, was welded with automatic control of the probe length. The completion of a circumferential welded joint was simulated by withdrawing the probe at different rates whilst welding sheet of 5.1 mm (0.200 in) thickness. The joints were assessed by metallography and measurement of ultimate tensile strength.
1st International Symposium, 14-16 Jun 1999, Session 01: Process Development 1, Paper 01
Subjects
- Friction welding
- Welding
- Process
- Friction stir welding
- Aluminium and Al alloys
- Nonferrous
- Material
- 2xxx Al series
- Process equipment
- Friction stir welding tools
- Strength
- Mechanical properties
- Properties
- Ultimate tensile strength
- Process conditions
- Weld zone
- Weld
- Thermomechanically affected zone
- Repair
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