Oxidation behaviour of Si3N4-TiN ceramics under dry and humid air at high temperature

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Leo Mazerolles
  • Armin Feldhoff
  • Marie France Trichet
  • Monika Backhaus-Ricoult

Externe Organisationen

  • Centre national de la recherche scientifique (CNRS)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)1743-1748
Seitenumfang6
FachzeitschriftJournal of the European Ceramic Society
Jahrgang25
Ausgabenummer10 SPEC. ISS.
PublikationsstatusVeröffentlicht - 2005

Abstract

The oxidation in air of Si3N4-based ceramics containing 35 vol.% of TiN secondary phase and different amounts of sintering additives has been studied at different temperatures up to 1400 °C in dry or humid environment. The oxidation starts by crystal growth of TiO2 at the surface, then a multilayered scale develops under the rutile layer from 1000 °C. This subscale is composed of silicon nitride in which TiN particles are oxidized to agglomerates of rutile, glass and pores. The oxidation process is controlled by the matter transports, which take place in the intergranular phase. These transport phenomena are affected by the changes in distribution and composition of the glassy phase and by humidity which modifies the glass network structure and thus the in-diffusion rate. From 1200 °C, Si3N4 grains are also oxidized, the additional glass formed closes the residual porosities yielding scales more compact and developing an autoprotective behavior. At 1400 °C, glass phase crystallizes into cristobalite and the rutile top layer becomes discontinuous. Only composites with low amounts of sinter additives keep an autoprotective oxidation mode.

ASJC Scopus Sachgebiete

Zitieren

Oxidation behaviour of Si3N4-TiN ceramics under dry and humid air at high temperature. / Mazerolles, Leo; Feldhoff, Armin; Trichet, Marie France et al.
in: Journal of the European Ceramic Society, Jahrgang 25, Nr. 10 SPEC. ISS., 2005, S. 1743-1748.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Mazerolles L, Feldhoff A, Trichet MF, Backhaus-Ricoult M. Oxidation behaviour of Si3N4-TiN ceramics under dry and humid air at high temperature. Journal of the European Ceramic Society. 2005;25(10 SPEC. ISS.):1743-1748. doi: 10.1016/j.jeurceramsoc.2004.12.016
Mazerolles, Leo ; Feldhoff, Armin ; Trichet, Marie France et al. / Oxidation behaviour of Si3N4-TiN ceramics under dry and humid air at high temperature. in: Journal of the European Ceramic Society. 2005 ; Jahrgang 25, Nr. 10 SPEC. ISS. S. 1743-1748.
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abstract = "The oxidation in air of Si3N4-based ceramics containing 35 vol.% of TiN secondary phase and different amounts of sintering additives has been studied at different temperatures up to 1400 °C in dry or humid environment. The oxidation starts by crystal growth of TiO2 at the surface, then a multilayered scale develops under the rutile layer from 1000 °C. This subscale is composed of silicon nitride in which TiN particles are oxidized to agglomerates of rutile, glass and pores. The oxidation process is controlled by the matter transports, which take place in the intergranular phase. These transport phenomena are affected by the changes in distribution and composition of the glassy phase and by humidity which modifies the glass network structure and thus the in-diffusion rate. From 1200 °C, Si3N4 grains are also oxidized, the additional glass formed closes the residual porosities yielding scales more compact and developing an autoprotective behavior. At 1400 °C, glass phase crystallizes into cristobalite and the rutile top layer becomes discontinuous. Only composites with low amounts of sinter additives keep an autoprotective oxidation mode.",
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AU - Mazerolles, Leo

AU - Feldhoff, Armin

AU - Trichet, Marie France

AU - Backhaus-Ricoult, Monika

N1 - Funding Information: The composite materials were provided by Dr. Alida Bellosi (ISTEC-CNR, Faenza, Italy) and Prof. Martine Desmaison-Brut (University of Limoges, France). The authors greatly acknowledge the support of the European Community in the frame of the European Network Project—Corrosion of ceramic matrix composites—HPRN-CT-2000-00044.

PY - 2005

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N2 - The oxidation in air of Si3N4-based ceramics containing 35 vol.% of TiN secondary phase and different amounts of sintering additives has been studied at different temperatures up to 1400 °C in dry or humid environment. The oxidation starts by crystal growth of TiO2 at the surface, then a multilayered scale develops under the rutile layer from 1000 °C. This subscale is composed of silicon nitride in which TiN particles are oxidized to agglomerates of rutile, glass and pores. The oxidation process is controlled by the matter transports, which take place in the intergranular phase. These transport phenomena are affected by the changes in distribution and composition of the glassy phase and by humidity which modifies the glass network structure and thus the in-diffusion rate. From 1200 °C, Si3N4 grains are also oxidized, the additional glass formed closes the residual porosities yielding scales more compact and developing an autoprotective behavior. At 1400 °C, glass phase crystallizes into cristobalite and the rutile top layer becomes discontinuous. Only composites with low amounts of sinter additives keep an autoprotective oxidation mode.

AB - The oxidation in air of Si3N4-based ceramics containing 35 vol.% of TiN secondary phase and different amounts of sintering additives has been studied at different temperatures up to 1400 °C in dry or humid environment. The oxidation starts by crystal growth of TiO2 at the surface, then a multilayered scale develops under the rutile layer from 1000 °C. This subscale is composed of silicon nitride in which TiN particles are oxidized to agglomerates of rutile, glass and pores. The oxidation process is controlled by the matter transports, which take place in the intergranular phase. These transport phenomena are affected by the changes in distribution and composition of the glassy phase and by humidity which modifies the glass network structure and thus the in-diffusion rate. From 1200 °C, Si3N4 grains are also oxidized, the additional glass formed closes the residual porosities yielding scales more compact and developing an autoprotective behavior. At 1400 °C, glass phase crystallizes into cristobalite and the rutile top layer becomes discontinuous. Only composites with low amounts of sinter additives keep an autoprotective oxidation mode.

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