Thermal transients during processing of materials by very high power ultrasonic additive manufacturing

Thermal transients during processing of materials by very high power ultrasonic additive manufacturing

Dynamic recrystallisation at interfaces has been suggested as the bonding mechanism in the joining of metallic tapes, during very high power ultrasonic additive manufacturing. To understand the reasons for such occurrence of dynamic recrystallization, thermal transients from the interface regions we...

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Veröffentlicht in:Journal of materials processing technology 2011-10, Vol.211 (10), p.1650-1657
Hauptverfasser: Sriraman, M.R., Gonser, Matt, Fujii, Hiromichi T., Babu, S.S., Bloss, Matt
Format: Artikel
Sprache:eng
Schlagworte:
Additives
Adiabatic flow
Adiabatic heating
Aluminum base alloys
Bonding
Dynamic recrystallisation
Heating
Plastic deformation
Recrystallization
Shear strength
Thermal transients
Ultrasonic additive manufacturing
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Zusammenfassung:Dynamic recrystallisation at interfaces has been suggested as the bonding mechanism in the joining of metallic tapes, during very high power ultrasonic additive manufacturing. To understand the reasons for such occurrence of dynamic recrystallization, thermal transients from the interface regions were recorded during processing of aluminum alloy (3003 and 6061 series) and 11 000 copper tapes under similar conditions. Measurements in 3003 Al were also carried out for different processing parameters. Measured peak temperatures were seen to increase with increase in shear strength of the material and ultrasonic vibration amplitude. The observations have been rationalized based on interfacial heating at asperities due to adiabatic plastic deformation.
ISSN:0924-0136
DOI:10.1016/j.jmatprotec.2011.05.003