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Abstract
In this paper, we present a comprehensive case study of a laser-based powder bed fusion-manufactured optimized filtrate nozzle, focusing on environmental impacts and benefits. The scope of the study covers the raw material production, part manufacturing and use phases. We compare the results for similar components manufactured by conventional, mainly material-removing manufacturing technologies. Primary data, measured from processes, are utilized for life cycle assessment calculations, which are completed with database data when necessary. The results show that by exploiting the design freedom of additive manufacturing, it is possible to achieve positive environmental benefits, namely, a 40% reduction in the carbon footprint during the use phase, although the manufacturing phase per se requires a similar amount or even more resources than the conventional manufacturing route. In addition to environmental benefits, we present here some other potential benefits for using optimized, additively manufactured parts.
Original language | English |
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Article number | 22183 |
Number of pages | 11 |
Journal | Scientific Reports |
Volume | 14 |
DOIs | |
Publication status | Published - 27 Sept 2024 |
MoE publication type | A1 Journal article-refereed |
Funding
This study was conducted under the GREEF project (Business Finland, grant 45340/31/2020).
Keywords
- additive manufacturing
- 3D printing
- envionmental friendliness
- Life cycle analysis (LCA)
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- 1 Finished
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GREEF: Green factory - towards carbon neutral production
Puukko, P. (Manager), Antikainen, A. (Participant), Metsä-Kortelainen, S. (Participant), Vatanen, S. (Participant), Hepo-oja, L. (Participant), Ruusuvuori, K. (Participant) & Alahuhta, P. (Owner)
1/08/21 → 31/12/23
Project: Business Finland project