Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties

Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties

Nickel ferrite powders were prepared by combustion synthesis of Fe, Fe2O3 and NiO using NaClO4 as fuel. Nickel ferrite ceramics were fabricated by single-step and two-step sintering under various conditions. The effects of each sintering process on the densification, microstructure and properties of...

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Main Authors: Klatnatee Vepulanont, Surisa Sa-Nguanprang, Saowaluk Buapoon, Thanaporn Bunluesak, Piyada Suebsom, Kotchaphan Chaisong, Nantawadee Udomsri, Nidchanun Karnchana, Duangnet Laokae, Tawat Chanadee
Format: Article
Language:English
Published: Taylor & Francis Group 2021-04-01
Series:Journal of Asian Ceramic Societies
Subjects:
nickel ferrite
combustion synthesis
sintering
magnetic properties
electrical properties
Online Access:http://dx.doi.org/10.1080/21870764.2021.1907031
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spelling doaj-6a1ec5c6726f41dfb30acf5607712a9e2021-05-06T16:05:15ZengTaylor & Francis GroupJournal of Asian Ceramic Societies2187-07642021-04-019263965110.1080/21870764.2021.19070311907031Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical propertiesKlatnatee Vepulanont0Surisa Sa-Nguanprang1Saowaluk Buapoon2Thanaporn Bunluesak3Piyada Suebsom4Kotchaphan Chaisong5Nantawadee Udomsri6Nidchanun Karnchana7Duangnet Laokae8Tawat Chanadee9Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Prince of Songkla University (PSU)Nickel ferrite powders were prepared by combustion synthesis of Fe, Fe2O3 and NiO using NaClO4 as fuel. Nickel ferrite ceramics were fabricated by single-step and two-step sintering under various conditions. The effects of each sintering process on the densification, microstructure and properties of the ceramics were investigated. X-ray diffraction analysis of as-prepared powders and as-fabricated ceramics confirmed a single-phase NiFe2O4 with a cubic spinel crystal structure. Single-step sintering produced ceramics with a wider density range (3.63–3.97 g/cm3) than two-step sintering (3.74–3.84 g/cm3) and a wider grain size range (1.10–2.31 µm compared to 1.30–1.37 µm). Two-step sintering produced ceramics with greater microhardness (135.00-172.60 HV) than single-step sintering (65.33-153.00 HV). In both methods, higher sintering temperatures produced ceramics with greater saturation magnetization (Ms). The highest Ms values were 62.84 emu/g from single-step sintering at 1200°C and 70.00 emu/g from two-step sintering at T2 = 1150°C: Hc was, respectively, 31.18 and 22.00 Oe. The ceramic sintered by the two-step method at T2 of 1150°C presented superparamagnetic-like behavior of multi-domain magnetic materials, with high µi and very low Hc. The higher electrical resistivity (R), dielectric constant (εr) and quality factor of this ceramic support high-frequency data storage applications.http://dx.doi.org/10.1080/21870764.2021.1907031nickel ferritecombustion synthesissinteringmagnetic propertieselectrical properties
collection DOAJ
language English
format Article
sources DOAJ
author Klatnatee Vepulanont
Surisa Sa-Nguanprang
Saowaluk Buapoon
Thanaporn Bunluesak
Piyada Suebsom
Kotchaphan Chaisong
Nantawadee Udomsri
Nidchanun Karnchana
Duangnet Laokae
Tawat Chanadee
spellingShingle Klatnatee Vepulanont
Surisa Sa-Nguanprang
Saowaluk Buapoon
Thanaporn Bunluesak
Piyada Suebsom
Kotchaphan Chaisong
Nantawadee Udomsri
Nidchanun Karnchana
Duangnet Laokae
Tawat Chanadee
Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
Journal of Asian Ceramic Societies
nickel ferrite
combustion synthesis
sintering
magnetic properties
electrical properties
author_facet Klatnatee Vepulanont
Surisa Sa-Nguanprang
Saowaluk Buapoon
Thanaporn Bunluesak
Piyada Suebsom
Kotchaphan Chaisong
Nantawadee Udomsri
Nidchanun Karnchana
Duangnet Laokae
Tawat Chanadee
author_sort Klatnatee Vepulanont
title Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
title_short Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
title_full Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
title_fullStr Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
title_full_unstemmed Nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
title_sort nickel ferrite ceramics: combustion synthesis, sintering, characterization, and magnetic and electrical properties
publisher Taylor & Francis Group
series Journal of Asian Ceramic Societies
issn 2187-0764
publishDate 2021-04-01
description Nickel ferrite powders were prepared by combustion synthesis of Fe, Fe2O3 and NiO using NaClO4 as fuel. Nickel ferrite ceramics were fabricated by single-step and two-step sintering under various conditions. The effects of each sintering process on the densification, microstructure and properties of the ceramics were investigated. X-ray diffraction analysis of as-prepared powders and as-fabricated ceramics confirmed a single-phase NiFe2O4 with a cubic spinel crystal structure. Single-step sintering produced ceramics with a wider density range (3.63–3.97 g/cm3) than two-step sintering (3.74–3.84 g/cm3) and a wider grain size range (1.10–2.31 µm compared to 1.30–1.37 µm). Two-step sintering produced ceramics with greater microhardness (135.00-172.60 HV) than single-step sintering (65.33-153.00 HV). In both methods, higher sintering temperatures produced ceramics with greater saturation magnetization (Ms). The highest Ms values were 62.84 emu/g from single-step sintering at 1200°C and 70.00 emu/g from two-step sintering at T2 = 1150°C: Hc was, respectively, 31.18 and 22.00 Oe. The ceramic sintered by the two-step method at T2 of 1150°C presented superparamagnetic-like behavior of multi-domain magnetic materials, with high µi and very low Hc. The higher electrical resistivity (R), dielectric constant (εr) and quality factor of this ceramic support high-frequency data storage applications.
topic nickel ferrite
combustion synthesis
sintering
magnetic properties
electrical properties
url http://dx.doi.org/10.1080/21870764.2021.1907031
work_keys_str_mv AT klatnateevepulanont nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
AT surisasanguanprang nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
AT saowalukbuapoon nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
AT thanapornbunluesak nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
AT piyadasuebsom nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
AT kotchaphanchaisong nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
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AT nidchanunkarnchana nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
AT duangnetlaokae nickelferriteceramicscombustionsynthesissinteringcharacterizationandmagneticandelectricalproperties
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