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Gaseous nitriding of iron-chromium alloys

  • R. E. Schacherl EMAIL logo , P. C. J. Graat und E. J. Mittemeijer
Veröffentlicht/Copyright: 31. Januar 2022
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International Journal of Materials Research
Aus der Zeitschrift International Journal of Materials Research Band 93 Heft 5

Abstract

Fe –Cr alloys containing 4, 7, 13 and 20 wt.% chromium were nitrided in a gas mixture consisting of hydrogen and ammonia at temperatures of 450, 580 and 700 °C. To investigate the nitrided samples light microscopy, scanning electron microscopy, hardness measurements, X-ray diffraction, electron probe microanalysis (EPMA), and Auger electron spectroscopy were applied. The samples with 4 and 7 wt.% Cr which were nitrided at 450 and 580 °C exhibit grains of relatively high hardness, containing finely dispersed submicroscopical chromium nitride precipitates, as well as grains of lower hardness containing discontinuously precipitated chromium nitride. The samples nitrided at 700 °C contain relatively coarse CrN particles. All samples were completely nitrided (i. e., throughout the whole sample cross-section), as confirmed by EPMA: a constant nitrogen content, independent of the occurring precipitation morphology, was observed. This nitrogen content is larger than expected on the basis of the Cr content and the solubility of N in Fe: excess N occurs. Local Cr and N enrichment was observed near pores which had developed mainly along grain boundaries. These pores are especially present in the samples which were nitrided at 700 °C. The evolution of the precipitation morphology, the presence of excess N and the local enrichment of Cr and N near pores were discussed.

Keywords: Gaseous nitriding; Fe –Cr alloys; Discontinuous precipitation; Chromium nitride; Excess nitrogen
Ralf Schacherl Max Planck Institute for Metals Research Heisenbergstr. 3, D-70569 Stuttgart, Germany Tel.: +49 711 689 3353 Fax: +49 711 689 3312

  1. We would like to thank Prof. M. A. J. Somers and Dr. P. B. Friehling of the Technical University of Denmark (Lyngby) for provision of nitriding equipment and assistance with the nitriding experiments.

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Received: 2002-02-19
Published Online: 2022-01-31

© 2002 Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Frontmatter
  2. Editorial
  3. Editorial
  4. Max-Planck-Institut für Metallforschung
  5. Articles/Aufsätze
  6. Towards a micromechanical understanding of biological surface devices
  7. Solid state phase transformation kinetics: a modular transformation model
  8. Electronic structure investigations of Ni and Cr films on (100)SrTiO3 substrates using electron energy-loss spectroscopy
  9. Surface magnetization reversal of sputtered CrO2
  10. Magnetic imaging with full-field soft X-ray microscopy
  11. Dislocation dynamics in sub-micron confinement: recent progress in Cu thin film plasticity
  12. Fatigue behavior of polycrystalline thin copper films
  13. Grain growth in magnetron-sputtered nickel films
  14. Thin Pd films on SrTiO3 (001) substrates: ab initio local-density-functional theory
  15. Coupled grain boundary and surface diffusion in a polycrystalline thin film constrained by substrate
  16. Gallium segregation at grain boundaries in aluminium
  17. Current work at the Stuttgart UHV diffusion bonding facility
  18. Bonding between Cu and α-Al2O3
  19. Compressive deformation of niobium sandwich-bonded to alumina
  20. SiO2-coated carbon nanotubes: theory and experiment
  21. Simulation of solidification structures of binary alloys
  22. Gaseous nitriding of iron-chromium alloys
  23. Deposition of ceramic materials from aqueous solution induced by organic templates
  24. Notifications/Mitteilungen
  25. Personen
  26. Books
  27. Information
  28. DGM Further Training
https://doi.org/10.3139/ijmr-2002-0078
Schlagwörter für diesen Artikel
Gaseous nitriding; Fe –Cr alloys; Discontinuous precipitation; Chromium nitride; Excess nitrogen

Artikel in diesem Heft

  1. Frontmatter
  2. Editorial
  3. Editorial
  4. Max-Planck-Institut für Metallforschung
  5. Articles/Aufsätze
  6. Towards a micromechanical understanding of biological surface devices
  7. Solid state phase transformation kinetics: a modular transformation model
  8. Electronic structure investigations of Ni and Cr films on (100)SrTiO3 substrates using electron energy-loss spectroscopy
  9. Surface magnetization reversal of sputtered CrO2
  10. Magnetic imaging with full-field soft X-ray microscopy
  11. Dislocation dynamics in sub-micron confinement: recent progress in Cu thin film plasticity
  12. Fatigue behavior of polycrystalline thin copper films
  13. Grain growth in magnetron-sputtered nickel films
  14. Thin Pd films on SrTiO3 (001) substrates: ab initio local-density-functional theory
  15. Coupled grain boundary and surface diffusion in a polycrystalline thin film constrained by substrate
  16. Gallium segregation at grain boundaries in aluminium
  17. Current work at the Stuttgart UHV diffusion bonding facility
  18. Bonding between Cu and α-Al2O3
  19. Compressive deformation of niobium sandwich-bonded to alumina
  20. SiO2-coated carbon nanotubes: theory and experiment
  21. Simulation of solidification structures of binary alloys
  22. Gaseous nitriding of iron-chromium alloys
  23. Deposition of ceramic materials from aqueous solution induced by organic templates
  24. Notifications/Mitteilungen
  25. Personen
  26. Books
  27. Information
  28. DGM Further Training
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