Improving energy efficiency in friction assisted joining of metals and polymers

The influence of the clamping frame material in Friction Assisted Joining of polymer-metal sheets is investigated. An experimental campaign was conducted by varying the clamping frame material (steel and wood) and the heating time. The process was applied to join Al-Mg aluminum alloy and Polyvinyl C...

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Veröffentlicht in:	Journal of materials processing technology 2017-12, Vol.250, p.379-389
Hauptverfasser:	Lambiase, Francesco, Paoletti, Alfonso, Grossi, Valentino, Genna, Silvio
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum alloys Aluminum base alloys Clamping Direct-joining Energy analysis Friction Friction assisted joining Heating Joining Laser texturing Magnesium base alloys Metal sheets Polyvinyl chloride Process efficiency Steel structures Thermal analysis
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creator	Lambiase, Francesco Paoletti, Alfonso Grossi, Valentino Genna, Silvio
description	The influence of the clamping frame material in Friction Assisted Joining of polymer-metal sheets is investigated. An experimental campaign was conducted by varying the clamping frame material (steel and wood) and the heating time. The process was applied to join Al-Mg aluminum alloy and Polyvinyl Chloride sheets. Thermal analysis and energy measurements were conducted during the process. The morphology, fracture surface and strength of the joints were analyzed. The clamping frame made of wood enabled different advantages to be achieved, including reduction of the energy loss towards the clamping frame, faster heating of the materials being joined, and more uniform distribution of the temperature over the joining area, which resulted in increased mechanical strength. Under optimal conditions the joint efficiency approached 97%.
doi_str_mv	10.1016/j.jmatprotec.2017.08.005
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An experimental campaign was conducted by varying the clamping frame material (steel and wood) and the heating time. The process was applied to join Al-Mg aluminum alloy and Polyvinyl Chloride sheets. Thermal analysis and energy measurements were conducted during the process. The morphology, fracture surface and strength of the joints were analyzed. The clamping frame made of wood enabled different advantages to be achieved, including reduction of the energy loss towards the clamping frame, faster heating of the materials being joined, and more uniform distribution of the temperature over the joining area, which resulted in increased mechanical strength. 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subjects	Aluminum alloys Aluminum base alloys Clamping Direct-joining Energy analysis Friction Friction assisted joining Heating Joining Laser texturing Magnesium base alloys Metal sheets Polyvinyl chloride Process efficiency Steel structures Thermal analysis
title	Improving energy efficiency in friction assisted joining of metals and polymers
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