1 / 11

Baden, 09.03.2006

Acceptable limits of degradation of TBC for high-efficient turbines (HET TBC) Department Materials (ALSTOM) Lab of Crystallography (ETH Z ürich) CTI project Nr. 7820.3 EPRP-IW Project start Nov. 1. 2005 Project duration 24 months. Baden, 09.03.2006. Outline

wilma
Télécharger la présentation

Baden, 09.03.2006

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Acceptable limits of degradation of TBC for high-efficient turbines (HET TBC) Department Materials (ALSTOM) Lab of Crystallography (ETH Zürich) CTI project Nr. 7820.3 EPRP-IW Project start Nov. 1. 2005 Project duration 24 months Baden, 09.03.2006

  2. Outline Evolution of coating microstructure with heat treatment Measurements of coating macro-strains SEM pictures of Sulzer Metco coatings

  3. Evolution of coating microstructure with heat treatment Coating D2426 was treated at 1100ºC for various times and then measured by XRD. Measurements allow to determine: Monoclinic content Cell parameters of tetragonal YSZ (and Yttrium content) Stresses and grains size

  4. Evolution of monoclinic content with heat treatment Monoclinic increases after 1h of heat treatment and is stable after 24h of heat treatment

  5. Evolution of Yttrium content with heat treatment After 1h of heat treatment the Yttrium content seems to increase. Both cell parameters a and c decreases. After 24h of heat treatment, the Yttrium content decreases, the cell parameter a remains constant and c increases.

  6. Evolution of particle size and strains with heat treatment Peak profile is described with a pseudo-Voigt function (mixing of a Gaussian with a Lorentzian function). The Lorentzian part of the peak profile is described by: s is the micro-strains broadening of the peak profile which is described by a tensors having only 4 non zero components (S400, S004, S220, S202)

  7. Evolution of particle size and strains with heat treatment The particle size can be obtained from the following expression: Grain size does not change after 24h heat treatment

  8. Evolution of particle size and strains with heat treatment Micro-strains decrease with heat treatment time as can be seen from the decrease of all Shkl values

  9. S3  S2 S1 Measurements of coating macro-strains Macro-strains are measured from peak shift for different coating orientations (angle ) Since d0 is usually difficult to know one can use the d value for =0 for d0.

  10. Measurements of coating macro-strains • One observes 0.1% strains in the coating from the peak shift measurement • A whole pattern fitting was performed and strains where calculated from cell parameters giving much lower values • This difference can be explained by an shift of the diffraction plane which can lead to error in the peak shift measurement

  11. SEM pictures of Sulzer Metco coatings Substrate Coating ‘Non-molten’ particle Sample was too big to allow EDX measurements (too small working distance) The polishing was not good enough and we had to polish the sample again The coating looks homogeneous and only one ‘non-molten’ particle was found (in the right side picture)

More Related