Synthesis and Characterization of an Fe/Co Ferrite Spinel Oxide Film Produced by Using N2/Steam Heat Treatment on Two Maraging Steels
An experimental procedure was developed to obtain an oxide layer formed mainly by spinel on maraging steels. It consists of different stages with specific conditions, such as atmospheres rich in nitrogen and water vapor, and different steps of temperatures and times. Tests were performed on grade 30...
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| Published in: | Metallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 53; no. 4; pp. 1276 - 1293 |
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| Language: | English |
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01-04-2022
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| Abstract | An experimental procedure was developed to obtain an oxide layer formed mainly by spinel on maraging steels. It consists of different stages with specific conditions, such as atmospheres rich in nitrogen and water vapor, and different steps of temperatures and times. Tests were performed on grade 300 and 350 maraging steels. Oxide layer characterization was done using optical and electron microscopy, spectroscopy, X-ray diffraction, and nanoscratch tests in order to determine the adhesion force as well as to observe the main deformation mechanism induced under sliding tests. In both steels, oxide layers are formed by the spinel’s Fe
3
O
4
and CoFe
2
O
4
in amounts close to ca. 85 pct, whereas TiO
2
and MoO
3
represent the other 15 pct. No hematite was found. The low oxygen availability during the heat treatment was fundamental for avoiding hematite formation. A nickel-rich austenitic phase formed at the metal-oxide interface due the kinetics of the oxidation process of the cobalt, iron, and molybdenum. The particular conditions of the heat treatments induced the formation of a mixture of iron, nickel, and cobalt spinel ferrites, thereby contradicting previous studies that said that only magnetite would be formed. The sliding tests at the nanometric length scale highlight that the layer formed on maraging 300 grade presents a better adhesion than the other investigated material due to the fact that it requires more load in order to induce cracks located at the edge of the sliding track and, subsequently, the chipping of the formed layer.
Graphical abstract |
|---|---|
| AbstractList | An experimental procedure was developed to obtain an oxide layer formed mainly by spinel on maraging steels. It consists of different stages with specific conditions, such as atmospheres rich in nitrogen and water vapor, and different steps of temperatures and times. Tests were performed on grade 300 and 350 maraging steels. Oxide layer characterization was done using optical and electron microscopy, spectroscopy, X-ray diffraction, and nanoscratch tests in order to determine the adhesion force as well as to observe the main deformation mechanism induced under sliding tests. In both steels, oxide layers are formed by the spinel’s Fe
3
O
4
and CoFe
2
O
4
in amounts close to ca. 85 pct, whereas TiO
2
and MoO
3
represent the other 15 pct. No hematite was found. The low oxygen availability during the heat treatment was fundamental for avoiding hematite formation. A nickel-rich austenitic phase formed at the metal-oxide interface due the kinetics of the oxidation process of the cobalt, iron, and molybdenum. The particular conditions of the heat treatments induced the formation of a mixture of iron, nickel, and cobalt spinel ferrites, thereby contradicting previous studies that said that only magnetite would be formed. The sliding tests at the nanometric length scale highlight that the layer formed on maraging 300 grade presents a better adhesion than the other investigated material due to the fact that it requires more load in order to induce cracks located at the edge of the sliding track and, subsequently, the chipping of the formed layer.
Graphical abstract An experimental procedure was developed to obtain an oxide layer formed mainly by spinel on maraging steels. It consists of different stages with specific conditions, such as atmospheres rich in nitrogen and water vapor, and different steps of temperatures and times. Tests were performed on grade 300 and 350 maraging steels. Oxide layer characterization was done using optical and electron microscopy, spectroscopy, X-ray diffraction, and nanoscratch tests in order to determine the adhesion force as well as to observe the main deformation mechanism induced under sliding tests. In both steels, oxide layers are formed by the spinel’s Fe3O4 and CoFe2O4 in amounts close to ca. 85 pct, whereas TiO2 and MoO3 represent the other 15 pct. No hematite was found. The low oxygen availability during the heat treatment was fundamental for avoiding hematite formation. A nickel-rich austenitic phase formed at the metal-oxide interface due the kinetics of the oxidation process of the cobalt, iron, and molybdenum. The particular conditions of the heat treatments induced the formation of a mixture of iron, nickel, and cobalt spinel ferrites, thereby contradicting previous studies that said that only magnetite would be formed. The sliding tests at the nanometric length scale highlight that the layer formed on maraging 300 grade presents a better adhesion than the other investigated material due to the fact that it requires more load in order to induce cracks located at the edge of the sliding track and, subsequently, the chipping of the formed layer. |
| Author | Rodríguez-Castellón, Enrique Ribas, Gemma Fargas da Mata, Stephany Aparecida Santos da Silva, Marcelo José Gomes Florez, Mauro Andres Cerra Rovira, Joan Josep Roa García, Antonio Manuel Mateo |
| Author_xml | – sequence: 1 givenname: Mauro Andres Cerra surname: Florez fullname: Florez, Mauro Andres Cerra email: mauro.cerra@gmail.com organization: LACAM - Departament of Metallurgical and Materials Engineering, Universidade Federal do Ceará, CIEFMA - Department of Materials Science and Engineering, Barcelona Research Center in Multiscale Science and Engineering, Universitat Politècnica de Catalunya, Escola d’Enginyeria de Barcelona Est (EEBE) – sequence: 2 givenname: Gemma Fargas surname: Ribas fullname: Ribas, Gemma Fargas organization: CIEFMA - Department of Materials Science and Engineering, Barcelona Research Center in Multiscale Science and Engineering, Universitat Politècnica de Catalunya, Escola d’Enginyeria de Barcelona Est (EEBE) – sequence: 3 givenname: Joan Josep Roa surname: Rovira fullname: Rovira, Joan Josep Roa organization: CIEFMA - Department of Materials Science and Engineering, Barcelona Research Center in Multiscale Science and Engineering, Universitat Politècnica de Catalunya, Escola d’Enginyeria de Barcelona Est (EEBE) – sequence: 4 givenname: Antonio Manuel Mateo surname: García fullname: García, Antonio Manuel Mateo organization: CIEFMA - Department of Materials Science and Engineering, Barcelona Research Center in Multiscale Science and Engineering, Universitat Politècnica de Catalunya, Escola d’Enginyeria de Barcelona Est (EEBE) – sequence: 5 givenname: Stephany Aparecida Santos surname: da Mata fullname: da Mata, Stephany Aparecida Santos organization: LACAM - Departament of Metallurgical and Materials Engineering, Universidade Federal do Ceará – sequence: 6 givenname: Enrique surname: Rodríguez-Castellón fullname: Rodríguez-Castellón, Enrique organization: Department of Inorganic Chemistry, Crystallography and Mineralogy, University of Malaga – sequence: 7 givenname: Marcelo José Gomes surname: da Silva fullname: da Silva, Marcelo José Gomes organization: LACAM - Departament of Metallurgical and Materials Engineering, Universidade Federal do Ceará |
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| SubjectTerms | Adhesion Aging Characterization and Evaluation of Materials Chemistry and Materials Science Chipping Cobalt ferrites Deformation mechanisms Engineering Gases Heat Heat treatment Hematite Iron oxides Maraging steels Materials Science Metal oxides Metallic Materials Molybdenum Nanotechnology Nickel Original Research Article Oxidation Oxide coatings Reaction kinetics Sliding Spinel Steel Structural Materials Surfaces and Interfaces Thin Films Titanium dioxide Water vapor |
| Title | Synthesis and Characterization of an Fe/Co Ferrite Spinel Oxide Film Produced by Using N2/Steam Heat Treatment on Two Maraging Steels |
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