Home Phase transformations of iron nitrides at low temperatures (< 700 K) – application of mechanical mixtures of powders of nitrides and iron
Article
Licensed
Unlicensed Requires Authentication

Phase transformations of iron nitrides at low temperatures (< 700 K) – application of mechanical mixtures of powders of nitrides and iron

  • Andreas Leineweber EMAIL logo , Jochen Aufrecht and Eric Jan Mittemeijer
Published/Copyright: January 11, 2022
Become an author with De Gruyter Brill
Author Information
International Journal of Materials Research
From the journal International Journal of Materials Research Volume 97 Issue 6

Abstract

Annealing at low temperatures (T < 670 K) of mixtures of iron nitride powders and iron powder is shown to induce phase transformations through nitrogen transfer between different powder particles. This nitrogen transfer occurs via loose mechanical contact points between different powder particles; nitrogen transport via the gas phase can be excluded. Unique scientific possibilities offered by this type of phase transformation studies are discussed.

Keywords: Phase transformations; Iron nitrides
Andreas Leineweber MPI für Metallforschung Heisenbergstraße 3, D-70569 Stuttgart, Germany Tel.: +49 711 689 3365 Fax: +49 711 689 3312

Dedicated to Professor Dr. Fritz Aldinger on the occasion of his 65th birthday

References

[1] D. Liedtke, U. Baudis, J. Boßlet, U. Huchel, H. Klümper-Westkamp, W. Lerche, H.-J Spies: Wärmebehandlung von Eisenwerkstoffen – Nitrieren und Nitrocarburieren, Expert-Verlag Renningen-Malmsheim, Germany, 2006.Search in Google Scholar

[2] E.J. Mittemeijer, M.A.J. Somers: Surface Eng. 13 (1997) 483.10.1179/sur.1997.13.6.483Search in Google Scholar

[3] E. Kubalek: Härt.-Techn. Mitt. 23 (1968) 177.Search in Google Scholar

[4] Z. Q. Liu, Y.X. Chen, Z.K. Hei, D.X. Li, H. Hashimoto: Metall. Mater. Trans A 32 (2001) 2681.10.1007/s11661-001-1020-ySearch in Google Scholar

[5] E.J. Mittemeijer, A.B.P. Vogels, P.J. van der Schaaf: Scr. Metall. 14 (1980) 411.10.1016/0036-9748(80)90336-1Search in Google Scholar

[6] W. Schröter, R. Rusev, K. Ibendorf, E. Vatev: Wiss. Z. d. Techn. Hochsch. Karl-Marx-Stadt 24 (1982) 6.Search in Google Scholar

[7] D. Gerardin, J. Morniroli, H. Michel, M. Gantois: J. Mater. Sci. 16 (1981) 159.10.1007/BF00552070Search in Google Scholar

[8] E. Vatev, R. Rusev, W. Schröter, K. Ibendorf, E. Ruseva: Neue Hütte 10 (1983) 389.Search in Google Scholar

[9] R.H. Jutte, B.J. Kooi, M.A.J. Somers, E.J. Mittemeijer: Oxid. Met. 48 (1997) 87.10.1007/BF01675263Search in Google Scholar

[10] T. Liapina, A. Leineweber, E.J. Mittemeijer: Scr. Mater. 48 (2003) 1643.10.1016/S1359-6462(03)00136-2Search in Google Scholar

[11] S. Malinov, A.J. Böttger, E.J. Mittemeijer, M.I. Pekelharing, M.A.J. Somers: Metall. Mater. Trans. A 32 (2001) 59.10.1007/s11661-001-0102-1Search in Google Scholar

[12] C.F. Goodeve, K.H. Jack: Disc. Faraday Soc. 4 (1948) 82.10.1039/df9480400082Search in Google Scholar

[13] A. Leineweber, H. Jacobs, F. Hüning, H. Lueken, W. Kockelmann: J. Alloys Compd. 316 (2001) 21.10.1016/S0925-8388(00)01435-3Search in Google Scholar

[14] A. Leineweber, H. Jacobs,W. Kockelmann: J. Alloys Compd. 368 (2004) 229.10.1016/j.jallcom.2003.08.062Search in Google Scholar

[15] T. Liapina, A. Leineweber, E.J. Mittemeijer: Defect Diff. Forum 237 (2005) 1147.10.4028/www.scientific.net/DDF.237-240.1147Search in Google Scholar

[16] E.B. Easton, T. Buhrmester, J.R. Dahn: Thin Solid Films 493 (2005) 60–66.10.1016/j.tsf.2005.06.063Search in Google Scholar

[17] W.H. Zhong, B.K. Tay, S.P. Lau, X.W. Sun, S. Li, C.Q. Sun: Thin Solid Films 478 (2005) 61.10.1016/j.tsf.2004.10.003Search in Google Scholar

[18] M. Niederdrenk, P. Schaaf, K.P. Lieb, O. Schulte: J. Alloys Compd. 237 (1996) 81.10.1016/0925-8388(95)02195-7Search in Google Scholar

[19] J. Foct: Mater. Sci. Forum 325 (2000) 99.10.4028/www.scientific.net/MSF.325-326.99Search in Google Scholar

[20] B.J. Kooi, M.A.J. Somers, E.J. Mittemeijer: Metall. Mater. Trans. A 25 (1994) 2797.10.1007/BF02649230Search in Google Scholar

[21] K.H. Jack: Proc. Roy. Soc. A 195 (1948) 34.Search in Google Scholar

[22] H. Jacobs, D. Rechenbach, U. Zachwieja: J. Alloys Compd. 227 (1995) 10.10.1016/0925-8388(95)01610-4Search in Google Scholar

[23] H.A. Wriedt, N.A. Gokcen, R.H. Nafziger: Bull. All. Phase Diagr. 8 (1987) 355.10.1007/BF02869273Search in Google Scholar

[24] T. Liapina, A. Leineweber, E.J. Mittemeijer: Metall. Mater. Trans A 37 (2006) 319.10.1007/s11661-006-0003-4Search in Google Scholar

[25] A. Leineweber, E.J. Mittemeijer: J. Appl. Crystallogr. 37 (2004) 123.10.1107/S0021889803026906Search in Google Scholar

[26] A. Leineweber, E.J. Mittemeijer: Z. Kristallogr. Suppl. 23 (2006) 117.10.1524/zksu.2006.suppl_23.117Search in Google Scholar

[27] T. Liapina, A. Leineweber, E.J. Mittemeijer, W. Kockelmann: Acta Mater. 52 (2004) 173.10.1016/j.actamat.2003.09.003Search in Google Scholar

[28] H.J. Grabke: Mater. Tehnol. 38 (2004) 211.Search in Google Scholar

[29] A. Leineweber: PhD thesis, Universität Dortmund (1999).Search in Google Scholar

[30] T. Liapina, A. Leineweber, E.J. Mittemeijer, M. Knapp, C. Baehtz, Z.Q. Liu, K. Mitsuishi, K. Furaya: Z. Kristallogr. Suppl. 23 (2006) 449.10.1524/zksu.2006.suppl_23.449Search in Google Scholar

[31] E.J. Mittemeijer, R. Delhez, in: S. Block, C.R. Hubbard (Eds.), Proceedings of Symposium on Accuracy in Powder Diffraction, NBS Special Publication 567, pp. 271–314. Washington: US Department of Commerce.Search in Google Scholar
Received: 2006-01-12
Accepted: 2006-02-25
Published Online: 2022-01-11

© 2006 Carl Hanser Verlag, München

Articles in the same Issue

  1. Frontmatter
  2. Microstructure and mechanical behavior of Pt-modified NiAl diffusion coatings
  3. Evolution of C-rich SiOC ceramics
  4. Evolution of C-rich SiOC ceramics
  5. Nanostructured SiC/BN/C ceramics derived from mixtures of B3N3H6 and [HSi(Me)C≡C]n
  6. Thermodynamic analysis of structural transformations induced by annealing of amorphous Si–C–N ceramics derived from polymer precursors
  7. Thermodynamic modelling of the Ce–Ni system
  8. Thermodynamic assessment of the Ce–O system in solid state from 60 to 67 mol.% O
  9. Phase transformations of iron nitrides at low temperatures (< 700 K) – application of mechanical mixtures of powders of nitrides and iron
  10. Effect of organic self-assembled monolayers on the deposition and adhesion of hydroxyapatite coatings on titanium
  11. Reconstruction and structural transition at metal/diamond interfaces
  12. Microstructure, hardness, and fracture toughness evolution of hot-pressed SiC/Si3N4 nano/micro composite after high-temperature treatment
  13. High-temperature plasticity of SiC sintered with Lu2O3-AlN additives
  14. Interaction of functionalised surfaces on silica with dissolved metal cations in aqueous solutions
  15. XRD and TEM study of NiO–LSGM reactivity
  16. Microstructure and dielectric properties of nanoscale oxide layers on sintered capacitor-grade niobium and V-doped niobium powder compacts
  17. Knudsen effusion mass spectrometric studies of the Al–Ni system: Thermodynamic properties over {AlNi + Al3Ni2} and {Al3Ni2 + Al3Ni}
  18. Aqueous solution deposition of indium hydroxide and indium oxide columnar type thin films
  19. Thermodynamic properties of B2-AlFeNi alloys: modelling of the B2-AlFe and B2-AlNi phases
  20. Kinetics of precipitate formation in (TixWyCrz)B2 solid solutions: influence of Cr concentration and Co impurities
  21. On the mechanisms governing the texture and microstructure evolution during static recrystallization and grain growth of low alloyed zirconium sheets (Zr702)
  22. Out-of-pile chemical compatibility of Pb–Bi eutectic alloy with Graphite
  23. Microstructural characterisation of a Co–Cr–Mo laser clad applied on railway wheels
  24. The Na–H system: from first-principles calculations to thermodynamic modeling
  25. Personal
  26. Conferences
  27. Frontmatter
  28. Basic
  29. Microstructure and mechanical behavior of Pt-modified NiAl diffusion coatings
  30. Evolution of C-rich SiOC ceramics
  31. Evolution of C-rich SiOC ceramics
  32. Nanostructured SiC/BN/C ceramics derived from mixtures of B3N3H6 and [HSi(Me)C≡C]n
  33. Thermodynamic analysis of structural transformations induced by annealing of amorphous Si–C–N ceramics derived from polymer precursors
  34. Thermodynamic modelling of the Ce–Ni system
  35. Thermodynamic assessment of the Ce–O system in solid state from 60 to 67 mol.% O
  36. Phase transformations of iron nitrides at low temperatures (< 700 K) – application of mechanical mixtures of powders of nitrides and iron
  37. Effect of organic self-assembled monolayers on the deposition and adhesion of hydroxyapatite coatings on titanium
  38. Reconstruction and structural transition at metal/diamond interfaces
  39. Applied
  40. Microstructure, hardness, and fracture toughness evolution of hot-pressed SiC/Si3N4 nano/micro composite after high-temperature treatment
  41. High-temperature plasticity of SiC sintered with Lu2O3-AlN additives
  42. Interaction of functionalised surfaces on silica with dissolved metal cations in aqueous solutions
  43. XRD and TEM study of NiO–LSGM reactivity
  44. Microstructure and dielectric properties of nanoscale oxide layers on sintered capacitor-grade niobium and V-doped niobium powder compacts
  45. Knudsen effusion mass spectrometric studies of the Al–Ni system: Thermodynamic properties over {AlNi + Al3Ni2} and {Al3Ni2 + Al3Ni}
  46. Aqueous solution deposition of indium hydroxide and indium oxide columnar type thin films
  47. Thermodynamic properties of B2-AlFeNi alloys: modelling of the B2-AlFe and B2-AlNi phases
  48. Regular Articles
  49. Kinetics of precipitate formation in (TixWyCrz)B2 solid solutions: influence of Cr concentration and Co impurities
  50. On the mechanisms governing the texture and microstructure evolution during static recrystallization and grain growth of low alloyed zirconium sheets (Zr702)
  51. Out-of-pile chemical compatibility of Pb–Bi eutectic alloy with Graphite
  52. Microstructural characterisation of a Co–Cr–Mo laser clad applied on railway wheels
  53. The Na–H system: from first-principles calculations to thermodynamic modeling
  54. Notifications
  55. Personal
  56. Conferences
https://doi.org/10.3139/ijmr-2006-0121
Keywords for this article
Phase transformations; Iron nitrides

Articles in the same Issue

  1. Frontmatter
  2. Microstructure and mechanical behavior of Pt-modified NiAl diffusion coatings
  3. Evolution of C-rich SiOC ceramics
  4. Evolution of C-rich SiOC ceramics
  5. Nanostructured SiC/BN/C ceramics derived from mixtures of B3N3H6 and [HSi(Me)C≡C]n
  6. Thermodynamic analysis of structural transformations induced by annealing of amorphous Si–C–N ceramics derived from polymer precursors
  7. Thermodynamic modelling of the Ce–Ni system
  8. Thermodynamic assessment of the Ce–O system in solid state from 60 to 67 mol.% O
  9. Phase transformations of iron nitrides at low temperatures (< 700 K) – application of mechanical mixtures of powders of nitrides and iron
  10. Effect of organic self-assembled monolayers on the deposition and adhesion of hydroxyapatite coatings on titanium
  11. Reconstruction and structural transition at metal/diamond interfaces
  12. Microstructure, hardness, and fracture toughness evolution of hot-pressed SiC/Si3N4 nano/micro composite after high-temperature treatment
  13. High-temperature plasticity of SiC sintered with Lu2O3-AlN additives
  14. Interaction of functionalised surfaces on silica with dissolved metal cations in aqueous solutions
  15. XRD and TEM study of NiO–LSGM reactivity
  16. Microstructure and dielectric properties of nanoscale oxide layers on sintered capacitor-grade niobium and V-doped niobium powder compacts
  17. Knudsen effusion mass spectrometric studies of the Al–Ni system: Thermodynamic properties over {AlNi + Al3Ni2} and {Al3Ni2 + Al3Ni}
  18. Aqueous solution deposition of indium hydroxide and indium oxide columnar type thin films
  19. Thermodynamic properties of B2-AlFeNi alloys: modelling of the B2-AlFe and B2-AlNi phases
  20. Kinetics of precipitate formation in (TixWyCrz)B2 solid solutions: influence of Cr concentration and Co impurities
  21. On the mechanisms governing the texture and microstructure evolution during static recrystallization and grain growth of low alloyed zirconium sheets (Zr702)
  22. Out-of-pile chemical compatibility of Pb–Bi eutectic alloy with Graphite
  23. Microstructural characterisation of a Co–Cr–Mo laser clad applied on railway wheels
  24. The Na–H system: from first-principles calculations to thermodynamic modeling
  25. Personal
  26. Conferences
  27. Frontmatter
  28. Basic
  29. Microstructure and mechanical behavior of Pt-modified NiAl diffusion coatings
  30. Evolution of C-rich SiOC ceramics
  31. Evolution of C-rich SiOC ceramics
  32. Nanostructured SiC/BN/C ceramics derived from mixtures of B3N3H6 and [HSi(Me)C≡C]n
  33. Thermodynamic analysis of structural transformations induced by annealing of amorphous Si–C–N ceramics derived from polymer precursors
  34. Thermodynamic modelling of the Ce–Ni system
  35. Thermodynamic assessment of the Ce–O system in solid state from 60 to 67 mol.% O
  36. Phase transformations of iron nitrides at low temperatures (< 700 K) – application of mechanical mixtures of powders of nitrides and iron
  37. Effect of organic self-assembled monolayers on the deposition and adhesion of hydroxyapatite coatings on titanium
  38. Reconstruction and structural transition at metal/diamond interfaces
  39. Applied
  40. Microstructure, hardness, and fracture toughness evolution of hot-pressed SiC/Si3N4 nano/micro composite after high-temperature treatment
  41. High-temperature plasticity of SiC sintered with Lu2O3-AlN additives
  42. Interaction of functionalised surfaces on silica with dissolved metal cations in aqueous solutions
  43. XRD and TEM study of NiO–LSGM reactivity
  44. Microstructure and dielectric properties of nanoscale oxide layers on sintered capacitor-grade niobium and V-doped niobium powder compacts
  45. Knudsen effusion mass spectrometric studies of the Al–Ni system: Thermodynamic properties over {AlNi + Al3Ni2} and {Al3Ni2 + Al3Ni}
  46. Aqueous solution deposition of indium hydroxide and indium oxide columnar type thin films
  47. Thermodynamic properties of B2-AlFeNi alloys: modelling of the B2-AlFe and B2-AlNi phases
  48. Regular Articles
  49. Kinetics of precipitate formation in (TixWyCrz)B2 solid solutions: influence of Cr concentration and Co impurities
  50. On the mechanisms governing the texture and microstructure evolution during static recrystallization and grain growth of low alloyed zirconium sheets (Zr702)
  51. Out-of-pile chemical compatibility of Pb–Bi eutectic alloy with Graphite
  52. Microstructural characterisation of a Co–Cr–Mo laser clad applied on railway wheels
  53. The Na–H system: from first-principles calculations to thermodynamic modeling
  54. Notifications
  55. Personal
  56. Conferences
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 26.10.2025 from https://www.degruyterbrill.com/document/doi/10.3139/ijmr-2006-0121/html
Scroll to top button