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Título
Ex-ante life cycle assessment of directed energy deposition based additive manufacturing: A comparative gearbox production case study
Autor
Publicado en
Sustainable Materials and Technologies. 2024, V. 39, e00819
Editorial
Elsevier
Fecha de publicación
2024-04
ISSN
2214-9937
DOI
10.1016/j.susmat.2023.e00819
Resumo
As new technologies emerge is necessary to assess if they can actually contribute to sustainable improvement of industrial processes. Life Cycle Assessment (LCA) is a valuable tool to determine environmental impacts and compare systems. However, this comparison raises challenges when they have different maturity. This paper performs ex-ante LCA of an additive manufacturing (AM) technology, based on a step-wise approach built with parametrized modelling, allowing fair comparison with its conventional counterpart, for the study case of a gearbox component. Results show that AM technology generates higher impacts than conventional manufacturing (CM) casting process, using baseline values. These impacts can be reduced by 94% with best operating performances from literature, with emissions from 4520 to 264 kg CO2 eq./kg piece, and non-significant difference with CM (demonstrated by Monte Carlo sampling). A 58% weight reduction is necessary for the AM process to improves its environmental sustainability. This research provides eco-design recommendations supporting decision making for further development of new technology.
Palabras clave
Life cycle assessment
Scale-up
Ex-ante LCA
Additive manufacturing
Emerging technologies
Eco-desing
Materia
Ingeniería mecánica
Mechanical engineering
Versión del editor
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