Thermodynamic simulations for the development of low carbon emission scrap based aluminium alloys
Important results from the project
The major companies in the aluminum industry were visited. A review of the data for the aluminum database was done (GAP analysis). Heat treatment experiments with subsequent metallography were carried out to better understand how to to generate new data. A number of examples have been developed to show how to use thermodynamic calculations in the context of recycled aluminum and what the advantages are. A well-attended workshop has been held.
Expected long term effects
The main long-term effects were the strong collaboration within the consortium and the fruitful meetings with industry, which increased awareness and engagement. The committee, bringing together diverse competences and experiences, established a shared vision for a future project. The results demonstrate feasible paths forward, and preparations for continuation are in progress. Swerim and JU are active in national and European discussions.
Approach and implementation
The project was carried out with three main topics (WP): Digitalization gap analysis, Experimental design and Industry visits (road trips); besides admin aspects. The technical part comprised how to progress with improved thermodynamic simulation tools in order to meet future demands, available data and supportive experiments. The road trips and other communication with the industry was to discuss and capture their needs in the context of aluminium recycling and computational thermodynamics.
The text has been written by the project team. The content is copied from the funding agency’s website and has not been reviewed by the Program Office.