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REWAS 2019 pp 229-233 | Cite as

Development of Electromagnetic Interference Materials from Metallurgical Wastes

  • Yong FanEmail author
Conference paper
Part of the The Minerals, Metals & Materials Series book series (MMMS)

Abstract

In view of developing a sustainable metallurgical production, the potential of its slag and/or dusts as a secondary resource must be considered to avoid landfilling. Many products have been innovated such as cement, concrete, ceramics tiles, land reclaim, etc. High iron content industrial solid wastes from metallurgical process may be utilized in the making of electromagnetic shielding and absorbing materials due to the metal droplets and ferrite it contains. This article provides a proof-of-principle of a new high-value-added application for the high iron content industrial solid wastes as an admixture for enhancing electromagnetic interference (EMI) shielding with a potential for future improvement. These special materials are particularly needed for applications in underground vaults, electric power devices, telecommunication, anti-spying, etc.

Keywords

Copper slag Electromagnetic interference Functional material 

Notes

Acknowledgements

The author Yong Fan thanks the Japan Society for the Promotion of Science (JSPS) and Alexander von Humboldt (AvH) Foundation for their financial supports.

References

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    Khushnood RA et al (2015) Improvement in electromagnetic interference shielding effectiveness of cement composites using carbonaceous nano/micro inerts. Constr Build Mater 85:208–216CrossRefGoogle Scholar
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    Fan Y et al (2017) Utilization of Stainless-steel furnace dust as an admixture for synthesis of cement-based electromagnetic interference shielding composites. Sci Rep 7:15368CrossRefGoogle Scholar
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    Schilesinger ME (2011) Extractive metallurgy of copper. Elsevier B.V, Great BritainGoogle Scholar
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    Fan Y et al (2013) Review on iron recovery and cleaning of copper slag. J MMIJ 129:177–184Google Scholar

Copyright information

© The Minerals, Metals & Materials Society 2019

Authors and Affiliations

  1. 1.Institut Für Eisen- Und Stahltechnologie, TU Bergakademie FreibergFreiberg, SachsenGermany
  2. 2.Department of Materials EngineeringKU LeuvenHeverleeBelgium

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