Comparative microstructural investigations of Ti-Al-N thin films alloyed with Y or Nb

Richard Rachbauer

Research output: ThesisDiploma Thesis

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Abstract

To reduce weight and increase efficiency, heavy alloys in structural components like turbines are to be replaced by light-weight alloys, such as TiAl-based alloys, which very often lack in oxidation and wear resistance especially at temperatures above 750°C. Consequently, effective wear protection is required, e.g. deposition with coatings, having high mechanical properties and thermal stability. This work represents an attempt to improve the established protective coating Ti-Al-N, in this respective by the addition of the transition metals yttrium or niobium. Therefore, utilizing a plasma-assisted physical vapour deposition (PVD) process and TiAl-targets alloyed with 0, 2, 4, and 8 at.% of Y or Nb, Ti-Al-M-N-coatings were prepared, where M represents Y or Nb. By means of in-situ high temperature X-ray-diffraction, transmission electron microscopy, nanoindentation and simultaneous thermal analysis, the individual influence of Y and Nb on microstructure, mechanical properties and thermal stability, was investigated. It is shown, that with increasing Y-contents the structure of Ti-Al-N changes from single-phase cubic to binary-phase cubic-hexagonal or single-phase hexagonal, whereas the investigated Nb-alloyed Ti-Al-N-coatings have a single-phase cubic structure. The changed microstructure for the Y-containing coatings results in a decrease in hardness and indentation modulus with increasing Y-content, whereas with the addition of Nb to the single-phase cubic Ti-Al-N-films the hardness and indentation modulus increases. During thermal treatment, both coatings systems Ti-Al-Y-N and Ti-Al-Nb-N exhibit increasing thermal stability with respect to decomposition processes of their metastable phases with increasing Y- respectively Nb-content. Consequently, these coating systems are promising for high-temperature applications.
Translated title of the contributionVergleichende mikrostrukturelle Untersuchungen von Ti-Al-N Schichten legiert mit Y oder Nb
Original languageEnglish
QualificationDipl.-Ing.
Supervisors/Advisors
  • Moser, Martin, Co-Supervisor (internal)
  • Mayrhofer, Paul Heinz, Supervisor (internal)
Award date27 Jun 2008
Publication statusPublished - 2008

Bibliographical note

embargoed until null

Keywords

  • Ti-Al-N Y Nb spinodal decomposition TEM in-situ HT-XRD nanoindentation STA microstructure

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