A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties

Mill scale iron waste from the steel industry can be extracted into useful hematite and produced into a NiZn ferrite as an EMI suppressor. The function of an EMI suppressor is to 'choke' the electromagnetic interference produced by almost all electronic equipment, electrical wiring, wirele...

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Main Authors: Hari Z., Alias M.W.H., Anuar A., Hamid N.A.
Other Authors: 35324176800
Format: Article
Published: Medwell Journals 2023
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spelling my.uniten.dspace-234162023-05-29T14:40:18Z A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties Hari Z. Alias M.W.H. Anuar A. Hamid N.A. 35324176800 57195916784 13609166500 6604077116 Mill scale iron waste from the steel industry can be extracted into useful hematite and produced into a NiZn ferrite as an EMI suppressor. The function of an EMI suppressor is to 'choke' the electromagnetic interference produced by almost all electronic equipment, electrical wiring, wireless networks, etc. The most widely used material is NiZn ferrite as it can work at high frequency. Some good characteristics of NiZn ferrite toroid core is low permeability and high loss, namely resistivity, Relative Loss Factor (RLF) impedance and coercivity. To help the environmental waste problems and reducing cost, hence the idea to convert mill scale from the steel industry waste into hematite (Fe2O3) which is the most important element in producing NiZn ferrite. Successful conversion of the mill scale into hematite was proven by X-Ray Diffraction (XRD) analysis by designing and fabricating a magnetic separator. The NiZn ferrites were prepared by solid state reaction technique. The 3 samples of different methods of hematite extraction were prepared. The ferrites were tested by XRD, Scanning Electron Microscopy (SEM), permeability, RLF and coercivity. The process of hematite conversion by running the HM sample through the magnetic separator followed by permanent magnet shows the best result. It was proven by the sample HM that has the best characteristics for an EMI suppressor such as low permeability (63.6), high RLF (1.23) and high coercivity (5.873 Oe). � Medwell Journals, 2017. Final 2023-05-29T06:40:17Z 2023-05-29T06:40:17Z 2017 Article 10.3923/jeasci.2017.4426.4430 2-s2.0-85030126058 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85030126058&doi=10.3923%2fjeasci.2017.4426.4430&partnerID=40&md5=03558e67ec33dccaa544d6284d435230 https://irepository.uniten.edu.my/handle/123456789/23416 12 17 4426 4430 Medwell Journals Scopus
institution Universiti Tenaga Nasional
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country Malaysia
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description Mill scale iron waste from the steel industry can be extracted into useful hematite and produced into a NiZn ferrite as an EMI suppressor. The function of an EMI suppressor is to 'choke' the electromagnetic interference produced by almost all electronic equipment, electrical wiring, wireless networks, etc. The most widely used material is NiZn ferrite as it can work at high frequency. Some good characteristics of NiZn ferrite toroid core is low permeability and high loss, namely resistivity, Relative Loss Factor (RLF) impedance and coercivity. To help the environmental waste problems and reducing cost, hence the idea to convert mill scale from the steel industry waste into hematite (Fe2O3) which is the most important element in producing NiZn ferrite. Successful conversion of the mill scale into hematite was proven by X-Ray Diffraction (XRD) analysis by designing and fabricating a magnetic separator. The NiZn ferrites were prepared by solid state reaction technique. The 3 samples of different methods of hematite extraction were prepared. The ferrites were tested by XRD, Scanning Electron Microscopy (SEM), permeability, RLF and coercivity. The process of hematite conversion by running the HM sample through the magnetic separator followed by permanent magnet shows the best result. It was proven by the sample HM that has the best characteristics for an EMI suppressor such as low permeability (63.6), high RLF (1.23) and high coercivity (5.873 Oe). � Medwell Journals, 2017.
author2 35324176800
author_facet 35324176800
Hari Z.
Alias M.W.H.
Anuar A.
Hamid N.A.
format Article
author Hari Z.
Alias M.W.H.
Anuar A.
Hamid N.A.
spellingShingle Hari Z.
Alias M.W.H.
Anuar A.
Hamid N.A.
A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties
author_sort Hari Z.
title A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties
title_short A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties
title_full A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties
title_fullStr A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties
title_full_unstemmed A study of mill scale derived hematite process for NiZn ferrite as EMI suppressor in terms of magnetic properties
title_sort study of mill scale derived hematite process for nizn ferrite as emi suppressor in terms of magnetic properties
publisher Medwell Journals
publishDate 2023
_version_ 1806423352322031616
score 13.222552