Title

Phase Stability And Sintering Behavior Of 10 Mol % Sc2O 3-1 Mol %Ceo2-Zro2 Ceramics

Abstract

The phase composition and sintering behavior of two commercially available 10 mol % Sc2O3-1 mol % CeO2-ZrO2 ceramics produced by Daiichi Kigenso Kagaku Kogyo (DKKK) and Praxair have been studied. DKKK powders have been manufactured using a wet coprecipitation chemical route, and Praxair powders have been produced by spray pyrolysis. The morphology of the powders, as studied by scanning electron microscopy, has been very different. DKKK powders were presented as soft ((100 (m] spherical agglomerates containing 60-100 nm crystalline particles, whereas the Praxair powders were presented as sintered platelet agglomerates, up to 30 (m long and 3-4 (μ thick, which consisted of smaller 100-200 nm crystalline particles. X-ray diffraction analysis has shown that both DKKK and Praxair powders contained a mixture of cubic (c) and rhombohedral (r) phases: 79% cubic (21% rhombohedral for DKKK powders and 88% cubic )12% rhombohedral for Praxair powders. Higher quantities of the Si impurity level have been detected in Praxair powder as compared to DKKK powder by secondary ion mass spectroscopy. The morphological features, along with differences in composition and the impurity level of both powders, resulted in significantly different sintering behaviors. The DKKK powders showed a more active sintering behavior than of Praxair powders, reaching 93-95% of theoretical density when sintered at 1300°C for 2 h. Comparatively, the Praxair powders required high sintering temperatures at 1500-1600°C. However, even at such high sintering temperatures, a significant amount of porosity was observed. Both DKKK and Praxair ceramics sintered at 1300°C or above exist in a cubic phase at room temperature. However, if sintered at 1100°C and 1200°C, the DKKK ceramics exist in a rhombohedral phase at room temperature. The DKKK ceramics sintered at 1300°C or above exhibit cubic to rhombohedral and back to cubic phase transitions upon heating at a 300-500°C temperature range, while Praxair ceramics exist in a pure cubic phase upon heating from room temperature to 900°C. However, if heated rather fast, the cubic to rhombohedral phase transformation could be avoided. Thus it is not expected that the observed phase transitions play a significant role in developing transformation stresses in ScCeZrO2 electrolyte upon heating and cooling down from the operation temperatures. Copyright © 2009 by ASME.

Publication Date

5-1-2009

Publication Title

Journal of Fuel Cell Science and Technology

Volume

6

Issue

2

Number of Pages

210071-210078

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1115/1.2971126

Socpus ID

69449105288 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/69449105288

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