JOIN-EM | JOINing of copper to aluminium by ElectroMagnetic fields

Summary

Global trends force industry to manufacture lighter, safer, more environmentally-friendly, more performant, and cheaper products. Due to its excellent thermal and electrical conductivity, copper is widely used in heating and cooling equipment and electrical devices. The rising demand caused the copper price to increase significantly.

Solving the conflict between the technological benefits arising from the excellent properties of copper and the disadvantages regarding cost and weight is possible by substituting current full copper parts by copper-aluminium hybrid parts.

Within JOIN’EM, such components will be produced by electromagnetic pulse welding (EMW). EMW is a high-speed joining technology using pulsed magnetic fields. The joint is formed without heat, but due to the impact of the joining partners. Disadvantages associated with conventional technologies are avoided and high-quality dissimilar material combinations can be joint.

In JOIN’EM, strategies for the process and tool design shall be developed for joining copper-aluminium connections and for 2 other specific material combinations. Profile-shaped components as well as sheet metal applications will be regarded. For joint optimisation, surface preparation, design of the joint geometry, and other aspects will be investigated.

A multi scale simulation strategy will be developed for determination of acting loads, deformation, impacting conditions, joint formation, and load capacity of the joint. Designing durable and efficient tools is an indispensable prerequisite for the industrial implementation of the technology and will be addressed in the project.

The applicability of the process design strategy shall be validated based on industrial applications. Process and equipment design strategies will be evaluated in an industrial setting. This includes automation and quality control, economic efficiency calculations, life-cycle, and recycling issues, to demonstrate and quantify the advantages of EMW.

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More information & hyperlinks
Web resources: http://www.join-em.eu/
https://cordis.europa.eu/project/id/677660
Start date: 01-09-2015
End date: 31-08-2018
Total budget - Public funding: 4 715 913,00 Euro - 4 127 029,00 Euro
Cordis data

Original description

Global trends force industry to manufacture lighter, safer, more environmentally-friendly, more performant, and cheaper products. Due to its excellent thermal and electrical conductivity, copper is widely used in heating and cooling equipment and electrical devices. The rising demand caused the copper price to increase significantly.
Solving the conflict between the technological benefits arising from the excellent properties of copper and the disadvantages regarding cost and weight is possible by substituting current full copper parts by copper-aluminium hybrid parts. Within JOIN’EM, such components will be produced by electromagnetic pulse welding (EMW).
EMW is a high-speed joining technology using pulsed magnetic fields. The joint is formed without heat, but due to the impact of the joining partners. Disadvantages associated with conventional technologies are avoided and high-quality dissimilar material combinations can be joint.
In JOIN’EM, strategies for the process and tool design shall be developed for joining copper-aluminium connections and for 2 other specific material combinations. Profile-shaped components as well as sheet metal applications will be regarded.
For joint optimisation, surface preparation, design of the joint geometry, and other aspects will be investigated. A multi scale simulation strategy will be developed for determination of acting loads, deformation, impacting conditions, joint formation, and load capacity of the joint.
Designing durable and efficient tools is an indispensable prerequisite for the industrial implementation of the technology and will be addressed in the project.
The applicability of the process design strategy shall be validated based on industrial applications. Process and equipment design strategies will be evaluated in an industrial setting. This includes automation and quality control, economic efficiency calculations, life-cycle, and recycling issues, to demonstrate and quantify the advantages of EMW.

Status

CLOSED

Call topic

FoF-12-2015

Update Date

27-10-2022
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Factories of the Future Partnership (FoF) - Made in Europe Partnership (MiE)
H2020 - Factories of the Future
H2020-FoF-2015
FoF-12-2015 Industrial technologies for advanced joining and assembly processes for multi-materials
Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
H2020-EU.2.1.5.1. Technologies for Factories of the Future
H2020-FoF-2015
FoF-12-2015 Industrial technologies for advanced joining and assembly processes for multi-materials