Überblick

Open Access

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Peer Reviewed

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Abstract

• Liquid phase-sintered B6O materials with Al2O3/Y2O3 additives were recently developed to yield higher fracture toughness and strength levels than those of pure B6O-materials. However, the high additive contents of hot-pressed and spark plasma-sintered (FAST/SPS) materials led to the formation of strength limiting boride precipitates. Systematic variation of the B2O3 content of the grain boundary phase and thermodynamic calculations carried out in the present work showed that it is possible to avoid boride formation by controlling the decomposition of B2O3 during densification and adjusting the B2O3 content of the composition through direct addition of B2O3 or through reaction of added transition metal oxides such as TiO2 with the starting composition to form B2O3. (C) 2016 Elsevier Ltd. All rights reserved.

authors

• Maik Thiele
• Alexander Michaelis
• Christin Mueller
• Herrmann, Mathias

Veröffentlichungszeitpunkt

• Januar 6, 2016

veröffentlicht in

• Journal of the European Ceramic Society, Vol.36(7), pp. 1549-1557  Zeitschrift