Environmental assessment of the near-net-shape electrochemical metallisation process and the Kroll-electron beam melting process for titanium manufacture

The enforcement of environmental policies, in recent years, has become one of the major driving forces for industrial upgrading. Therefore, this study is focused on the evaluation of the environmental impact of a newly proposed titanium additive manufacturing process, including its in-depth comparis...

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Bibliographic Details
Published in:Green chemistry : an international journal and green chemistry resource : GC 2020-01, Vol.22 (6), p.1952-1967
Main Authors: Dolganov, Aleksei, Bishop, Matthew T, Tomatis, Marco, Chen, George Z, Hu, Di
Format: Article
Language:English
Subjects:
Argon
Atomizing
Electrochemistry
Electron beam melting
Environmental assessment
Environmental degradation
Environmental impact
Environmental policy
Evaluation
Fabrication
Free fall
Green chemistry
International standards
Life cycle analysis
Life cycle assessment
Life cycles
Manufacturing industry
Melting
Near net shaping
Nickel
Sustainability
Three dimensional printing
Titanium
Titanium oxide
Titanium oxides
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Summary:The enforcement of environmental policies, in recent years, has become one of the major driving forces for industrial upgrading. Therefore, this study is focused on the evaluation of the environmental impact of a newly proposed titanium additive manufacturing process, including its in-depth comparison with the conventional method. This new method, referred to as near-net-shape electrochemical metallisation, is based on the in situ metallisation ( via the FFC-Cambridge process) of 3D-printed titanium oxide precursors (using direct ink writing process). In order to evaluate the main contributors to the environmental damage and to compare them with the conventional route for titanium manufacturing, the gate-to-gate life cycle assessment has been conducted following the established international standards. From this, the main contributors within the near-net-shape electrochemical metallisation process were identified to be electricity and synthetic rutile, with medium impacts from argon and nickel. It was found that major impacts were challenging to be reduced without affecting the properties of the final product. However, the medium impacts can theoretically be modified, yielding potential improvements in the sustainability of the process by 10%. When compared to the conventional route (consisting of the Kroll process, Free fall gas atomisation and electron beam melting), the end point results demonstrated that, by adopting the near-net-shape electrochemical metallisation process, the overall impact of titanium fabrication was dramatically reduced. Specifically, an average reduction of 68% for the ecosystem, human health and resources was observed. A comparative environmental assessment of a novel additive manufacturing technique against the established conventional route for titanium manufacture.
ISSN:1463-9262
1463-9270
DOI:10.1039/c9gc04036f