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5 Werkstofftechnik

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Autor

  • Dörfel, Ilona (1)
  • Feigl, Michael (1)
  • Kranzmann, Axel (1)
  • Mieller, Björn (1)
  • Nofz, Marianne (1)
  • Schulz, Wencke (1)

Erscheinungsjahr

  • 2019 (1)
  • 2013 (1)

Referierte Publikation

  • ja (2) (entfernen)

Schlagworte

  • Alumina (2) (entfernen)

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  • 5.5 Technische Keramik (2) (entfernen)

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Influence of a sol-gel alumina coating on oxidation of X20CrMoV12-1 in air up to 650 °C (2013)
Schulz, Wencke ; Feigl, Michael ; Dörfel, Ilona ; Nofz, Marianne ; Kranzmann, Axel
The need for a more efficient coal power plant generation (e.g. oxyfuel technology) results in modified process parameters and enhanced corrosion. To reach the necessary service life of high temperature parts protective coatings may be a sufficient technical solution. A modified Yoldas sol (Al2O3 based) was used to coat X20CrMoV12-1 by spin coating. After appropriate heat treatments transition alumina coatings being about 400 nm thick were obtained. Oxidation studies were carried out in laboratory air at temperatures up to 650 °C for up to 500 h exposure time. In case of the uncoated sample a rough oxide layer formed on the surface and a remarkable weight gain (2.62 mg/cm²) were detected. The sol–gel alumina layer (mainly δ-Al2O3) demonstrated a high protection, i.e. a very low weight gain (0.05 mg/cm²). Diffusion of alloying elements into the coating was observed. No indication of spallation of the coating occurred. Local defects (2 µm–30 µm) in the coating led to the formation of iron-oxide islands.
Influence of test procedure on dielectric breakdown strength of alumina (2019)
Mieller, Björn
Dielectric strength testing of ceramics can be performed with various setups and parameters. Comparisons of results from different sources are often not meaningful, because the results are strongly dependent on the actual testing procedure. The aim of this study is to quantify the influence of voltage ramp rate, electrode size, electrode conditioning, and sample thickness on the measured AC dielectric strength of a commercial alumina. Mean values, Weibull moduli, and failure probabilities determined in standardized short time tests are evaluated and related to withstand voltage tests. Dielectric strength values in the range from 21.6 to 33.2 kV/mm were obtained for the same material using different testing procedures. Short time tests resulted in small standard deviations (< 2 kV/mm) and high Weibull moduli around 30, while withstand tests at voltage levels with low and virtual zero failure probability in short time tests resulted in large scatter of withstand time and Weibull moduli < 1. The strong decrease in Weibull moduli is attributed to progressive damage from partial discharge and depolarization during AC testing. These findings emphasize the necessity of a thorough documentation of testing procedure and highlight the importance of withstand voltage tests for a comprehensive material characterization.
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