Santella, M., Grant, G., & Arbegast, W. (2003, May). Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite. 4th International Symposium.
Santella M, Grant G and Arbegast W. "Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite". 4th International Symposium (May.2003).
Santella, M, Grant, G and Arbegast, W. "Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite". 4th International Symposium (May.2003).
Santella M., Grant G. and Arbegast W.Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite. 4th International Symposium. 2003 May; .
Santella, Grant & Arbegast 2003, 'Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite', 4th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200305-8Paper03.pdf.
Santella M, Grant G, Arbegast W. Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite. 4th International Symposium. 2003;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200305-8Paper03.pdf.
Santella MM, Grant GG, Arbegast WW. Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite. 4th International Symposium. 2003 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200305-8Paper03.pdf.
Plunge testing to evaluate tool materials for friction stir welding of 6001+20wt%Al2O3 composite
- Santella M. ,
- Grant G. and
- Arbegast W.
- Santella M. ,
- Grant G. and
- Arbegast W.
May 2003
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High alloy tool steel H13, silicon nitride(Si3N4) and tungsten carbide (WC) bonded with 10%Co cylindrical pin tools (12.5 mm diameter) were evaluated for the friction stir welding of aluminium alloy 6061 containing 20 wt% alumina by determining an effective friction coefficient for each pin tool material. The pins, rotating at 800 rpm, were forced into the composite plates under a constant force, whilst the normal force, tool displacement and spindle torque were measured and used to calculate the effective friction coefficient.
4th International Symposium, 14-16 May 2003, Session 8: Dissimilar & Special Materials 2, Paper 03
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