Optimization and lifecycle engineering for design and manufacture of recycled aluminium parts
GULBRANDSEN-DAHL, Sverre
Stiftelsen for INdustriell og TEknisk Forskning Digital [Trondheim] [SINTEF Digital]
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Stiftelsen for INdustriell og TEknisk Forskning Digital [Trondheim] [SINTEF Digital]
GULBRANDSEN-DAHL, Sverre
Stiftelsen for INdustriell og TEknisk Forskning Digital [Trondheim] [SINTEF Digital]
< Reduce
Stiftelsen for INdustriell og TEknisk Forskning Digital [Trondheim] [SINTEF Digital]
Language
en
Article de revue
This item was published in
CIRP Annals - Manufacturing Technology. 2016, vol. 65, n° 2 years, p. 149–152
Elsevier
English Abstract
Aluminium alloys components are numerous in aeronautic and automobile structures. Despite having interesting mechanical properties for lightweight solutions, the extraction of virgin aluminium still has negative impacts ...Read more >
Aluminium alloys components are numerous in aeronautic and automobile structures. Despite having interesting mechanical properties for lightweight solutions, the extraction of virgin aluminium still has negative impacts on the environment. A solution is to use an increased rate of recycled aluminium in structural parts. This requires a global optimisation of the part design and manufacture. The proposed work details the advanced optimization techniques used for product and process design integrating environmental concerns. The methodology is implemented and tested on an industrial case that results in a recycling rate of 75% in high-end structural component based on wrought aluminium alloys.Read less <
English Keywords
Optimization
Design
Lifecycle
Origin
Hal imported