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Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques

This study presents the utilization of mill scale waste, which has attracted much attention due to its high content of magnetite (Fe(3)O(4)). This work focuses on the extraction of Fe(3)O(4) from mill scale waste via magnetic separation, and ball milling was used to fabricate a microwave absorber. T...

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Autores principales: Elmahaishi, Madiha Fathi, Azis, Raba’ah Syahidah, Ismail, Ismayadi, Mustaffa, Muhammad Syazwan, Abbas, Zulkifly, Matori, Khamirul Amin, Muhammad, Farah Diana, Saat, Nor Kamilah, Nazlan, Rodziah, Ibrahim, Idza Riati, Abdullah, Nor Hapishah, Mokhtar, Nurhidayaty
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8621786/
https://www.ncbi.nlm.nih.gov/pubmed/34832475
http://dx.doi.org/10.3390/ma14227075
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author Elmahaishi, Madiha Fathi
Azis, Raba’ah Syahidah
Ismail, Ismayadi
Mustaffa, Muhammad Syazwan
Abbas, Zulkifly
Matori, Khamirul Amin
Muhammad, Farah Diana
Saat, Nor Kamilah
Nazlan, Rodziah
Ibrahim, Idza Riati
Abdullah, Nor Hapishah
Mokhtar, Nurhidayaty
author_facet Elmahaishi, Madiha Fathi
Azis, Raba’ah Syahidah
Ismail, Ismayadi
Mustaffa, Muhammad Syazwan
Abbas, Zulkifly
Matori, Khamirul Amin
Muhammad, Farah Diana
Saat, Nor Kamilah
Nazlan, Rodziah
Ibrahim, Idza Riati
Abdullah, Nor Hapishah
Mokhtar, Nurhidayaty
author_sort Elmahaishi, Madiha Fathi
collection PubMed
description This study presents the utilization of mill scale waste, which has attracted much attention due to its high content of magnetite (Fe(3)O(4)). This work focuses on the extraction of Fe(3)O(4) from mill scale waste via magnetic separation, and ball milling was used to fabricate a microwave absorber. The extracted magnetic powder was ground-milled using two different techniques: (i) a conventional milling technique (CM) and (ii) mechanical alloying (MM) process. The Fe(3)O(4)/CM samples were prepared by a conventional milling process using steel pot ball milling, while the Fe(3)O(4)/MM samples were prepared using a high-energy ball milling (HEBM) method. The effect of milling time on the structural, phase composition, and electromagnetic properties were examined using X-ray diffraction (XRD) and a vector network analyzer (VNA). XRD confirmed the formation of magnetite after both the magnetic separation and milling processes. The results revealed that Fe(3)O(4) exhibited excellent microwave absorption properties because of the synergistic characteristics of its dielectric and magnetic loss. The results showed that the Fe(3)O(4)/CM particle powder had a greater absorption power (reflection loss: <−10 dB) with 99.9% absorption, a minimum reflection loss of −30.83 dB, and an effective bandwidth of 2.30 GHz for 2 mm thick samples. The results revealed the Fe(3)O(4)/MM powders had higher absorption properties, including a higher RL of −20.59 dB and a broader bandwidth of 2.43 GHz at a matching thickness of only 1 mm. The higher microwave absorption performance was attributed to the better impedance matching property caused by the porous microstructure. Furthermore, the magnetite, Fe(3)O(4) showed superior microwave absorption characteristics because of the lower value of permittivity, which resulted in better impedance matching. This study presents a low-cost approach method by reutilizing mill scale waste to fabricate a high purity crystalline Fe(3)O(4) with the best potential for designing magnetic nano-sized based microwave absorbers.
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spelling pubmed-86217862021-11-27 Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques Elmahaishi, Madiha Fathi Azis, Raba’ah Syahidah Ismail, Ismayadi Mustaffa, Muhammad Syazwan Abbas, Zulkifly Matori, Khamirul Amin Muhammad, Farah Diana Saat, Nor Kamilah Nazlan, Rodziah Ibrahim, Idza Riati Abdullah, Nor Hapishah Mokhtar, Nurhidayaty Materials (Basel) Article This study presents the utilization of mill scale waste, which has attracted much attention due to its high content of magnetite (Fe(3)O(4)). This work focuses on the extraction of Fe(3)O(4) from mill scale waste via magnetic separation, and ball milling was used to fabricate a microwave absorber. The extracted magnetic powder was ground-milled using two different techniques: (i) a conventional milling technique (CM) and (ii) mechanical alloying (MM) process. The Fe(3)O(4)/CM samples were prepared by a conventional milling process using steel pot ball milling, while the Fe(3)O(4)/MM samples were prepared using a high-energy ball milling (HEBM) method. The effect of milling time on the structural, phase composition, and electromagnetic properties were examined using X-ray diffraction (XRD) and a vector network analyzer (VNA). XRD confirmed the formation of magnetite after both the magnetic separation and milling processes. The results revealed that Fe(3)O(4) exhibited excellent microwave absorption properties because of the synergistic characteristics of its dielectric and magnetic loss. The results showed that the Fe(3)O(4)/CM particle powder had a greater absorption power (reflection loss: <−10 dB) with 99.9% absorption, a minimum reflection loss of −30.83 dB, and an effective bandwidth of 2.30 GHz for 2 mm thick samples. The results revealed the Fe(3)O(4)/MM powders had higher absorption properties, including a higher RL of −20.59 dB and a broader bandwidth of 2.43 GHz at a matching thickness of only 1 mm. The higher microwave absorption performance was attributed to the better impedance matching property caused by the porous microstructure. Furthermore, the magnetite, Fe(3)O(4) showed superior microwave absorption characteristics because of the lower value of permittivity, which resulted in better impedance matching. This study presents a low-cost approach method by reutilizing mill scale waste to fabricate a high purity crystalline Fe(3)O(4) with the best potential for designing magnetic nano-sized based microwave absorbers. MDPI 2021-11-22 /pmc/articles/PMC8621786/ /pubmed/34832475 http://dx.doi.org/10.3390/ma14227075 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Elmahaishi, Madiha Fathi
Azis, Raba’ah Syahidah
Ismail, Ismayadi
Mustaffa, Muhammad Syazwan
Abbas, Zulkifly
Matori, Khamirul Amin
Muhammad, Farah Diana
Saat, Nor Kamilah
Nazlan, Rodziah
Ibrahim, Idza Riati
Abdullah, Nor Hapishah
Mokhtar, Nurhidayaty
Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques
title Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques
title_full Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques
title_fullStr Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques
title_full_unstemmed Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques
title_short Structural, Electromagnetic and Microwave Properties of Magnetite Extracted from Mill Scale Waste via Conventional Ball Milling and Mechanical Alloying Techniques
title_sort structural, electromagnetic and microwave properties of magnetite extracted from mill scale waste via conventional ball milling and mechanical alloying techniques
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8621786/
https://www.ncbi.nlm.nih.gov/pubmed/34832475
http://dx.doi.org/10.3390/ma14227075
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