Yasui, T., Tsubaki, M., Fukumoto, M., Takahashi, H., & Sasaki, S. (2006, October). Butt welding between aluminium alloy and Al-based MMC by friction stirring. 6th International Symposium.
Yasui T, Tsubaki M, Fukumoto M, et al. "Butt welding between aluminium alloy and Al-based MMC by friction stirring". 6th International Symposium (Oct.2006).
Yasui, T, Tsubaki, M, Fukumoto, M, et al. "Butt welding between aluminium alloy and Al-based MMC by friction stirring". 6th International Symposium (Oct.2006).
Yasui T., Tsubaki M., Fukumoto M., Takahashi H. and Sasaki S.Butt welding between aluminium alloy and Al-based MMC by friction stirring. 6th International Symposium. 2006 Oct; .
Yasui, et al 2006, 'Butt welding between aluminium alloy and Al-based MMC by friction stirring', 6th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200610-12BPaper03.pdf.
Yasui T, Tsubaki M, Fukumoto M, Takahashi H, Sasaki S. Butt welding between aluminium alloy and Al-based MMC by friction stirring. 6th International Symposium. 2006;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200610-12BPaper03.pdf.
Yasui TT, Tsubaki MM, Fukumoto MM, Takahashi HH, Sasaki SS. Butt welding between aluminium alloy and Al-based MMC by friction stirring. 6th International Symposium. 2006 Oct;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200610-12BPaper03.pdf.
Butt welding between aluminium alloy and Al-based MMC by friction stirring
- Yasui T. ,
- Tsubaki M. ,
- Fukumoto M. ,
- et al
- Yasui T. ,
- Tsubaki M. ,
- Fukumoto M. ,
- Takahashi H. and
- Sasaki S.
October 2006
Repository
Description
Butt welding experiments were undertaken to investigate the feasibility of joining a metal matrix composite (MMC), comprising an Al-10%Si matrix and 20 vol.% SiC particles, to an AA-6063-T5 alloy by friction stir welding (FSW). Optimum process parameters were identified and tensile properties of the welded joints were determined. Tool wear was avoided by employing negative tool probe offset. FSW was performed at a tool rotation speed of 3000 or 4000 rpm and welding speed of 250-750 mm/min. Cross-sectional welded joint microstructure was observed by optical microscopy, and tensile strength and elongation were measured with a tensile tester.
6th International Symposium, 10-13 Oct 2006, Session 12B: MMC's Properties, Paper 03
Subjects
- Friction welding
- Welding
- Process
- Friction stir welding
- Aluminium and Al alloys
- Nonferrous
- Material
- 4xxx Al series
- 6xxx Al series
- Composite materials
- Matrix composites
- Ceramics
- Dissimilar materials
- Particle reinforced composites
- Microstructure
- Process conditions
- Process equipment
- Strength
- Mechanical properties
- Properties
- Ultimate tensile strength
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