Startseite Nanoindentation measurements on infiltrated alumina–aluminide alloys
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Nanoindentation measurements on infiltrated alumina–aluminide alloys

  • T. Scholz EMAIL logo , M. May , M. V. Swain , G. A. Schneider und N. Claussen
Veröffentlicht/Copyright: 25. Januar 2022
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International Journal of Materials Research
Aus der Zeitschrift International Journal of Materials Research Band 94 Heft 7

Abstract

Metal – ceramic composites have been fabricated by reactive infiltration with a laboratory squeeze caster. Two types of these composites are characterised by nanoindentation. While the first one contains Al2O3, TiO2 and Al, the second one contains Al2O3, TiAl3 as the main products and a little Ti5Si3. The phases of the second specimen are formed during infiltration. Hardness and Young’s modulus values in both composites were compared with measurements of the bulk material of each phase. A significant depth dependence of the properties was detected in the composite materials and simulated by a finite element analysis. The measured values agreed well with the simulation.

Keywords: Nanoindentation; Metal – ceramic composites; Reactive infiltration; Finite element analysis
Torben Scholz Technische Universität Hamburg-Harburg Arbeitsbereich Technische Keramik Denickestr. 15, D-21073 Hamburg, Germany Tel.: +49 40 42878 3749 Fax: +49 40 42878 2647

Dedicated to Professor Dr. Dr. h. c. Manfred Rühle on the occasion of his 65th birthday

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Received: 2002-01-07
Published Online: 2022-01-25

© 2003 Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Frontmatter
  2. Editorial
  3. Editorial
  4. Articles/Aufsätze
  5. On the origins and mechanisms of the indentation size effect
  6. Nanoindentation testing of gear steels
  7. Nanoscale materials testing under industrially relevant conditions: high-temperature nanoindentation testing
  8. Investigation of the properties of candidate reference materials suited for the calibration of nanoindentation instruments
  9. Approaches of quantifying the entire load–depth curve in terms of hardness
  10. Effect of interphase boundaries on nanoindentation experiments on a Ni-base alloy
  11. Nanoindentation measurements on infiltrated alumina–aluminide alloys
  12. The phase diagram of the Cd–In–Sn system
  13. Experimental study of the liquid/liquid interfacial tension in immiscible Al–Bi system
  14. Solid state synthesis of Al-based amorphous and nanocrystalline Al–Nb–Si and Al–Zr–Si alloys
  15. X-ray diffraction study on the microstructure of an Al–Mg–Sc–Zr alloy deformed by high-pressure torsion
  16. A laser-remelted complex manganese bronze with shape memory
  17. Notifications/Mitteilungen
  18. Personal/Personelles
  19. Books/Bücher
  20. Conferences/Konferenzen
https://doi.org/10.3139/ijmr-2003-0144
Schlagwörter für diesen Artikel
Nanoindentation; Metal – ceramic composites; Reactive infiltration; Finite element analysis

Artikel in diesem Heft

  1. Frontmatter
  2. Editorial
  3. Editorial
  4. Articles/Aufsätze
  5. On the origins and mechanisms of the indentation size effect
  6. Nanoindentation testing of gear steels
  7. Nanoscale materials testing under industrially relevant conditions: high-temperature nanoindentation testing
  8. Investigation of the properties of candidate reference materials suited for the calibration of nanoindentation instruments
  9. Approaches of quantifying the entire load–depth curve in terms of hardness
  10. Effect of interphase boundaries on nanoindentation experiments on a Ni-base alloy
  11. Nanoindentation measurements on infiltrated alumina–aluminide alloys
  12. The phase diagram of the Cd–In–Sn system
  13. Experimental study of the liquid/liquid interfacial tension in immiscible Al–Bi system
  14. Solid state synthesis of Al-based amorphous and nanocrystalline Al–Nb–Si and Al–Zr–Si alloys
  15. X-ray diffraction study on the microstructure of an Al–Mg–Sc–Zr alloy deformed by high-pressure torsion
  16. A laser-remelted complex manganese bronze with shape memory
  17. Notifications/Mitteilungen
  18. Personal/Personelles
  19. Books/Bücher
  20. Conferences/Konferenzen
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