Oxidation Resistance of Zrb2 Based Ultra-high Temperature Ceramics: Experimental Studies at 1200 to 1900 Degree C - Fei Peng - Libros - LAP LAMBERT Academic Publishing - 9783843379892 - 1 de diciembre de 2010
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Oxidation Resistance of Zrb2 Based Ultra-high Temperature Ceramics: Experimental Studies at 1200 to 1900 Degree C

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Specimens of ZrB2 containing various concentrations of SiC, TaB2, and TaSi2 were pressureless-sintered and post-HIPed to theoretical densities. Oxidation resistances were studied by scanning thermogravimetry over the range 1150 - 1550 C, and isothermal thermogravimetry at 1200 - 1900 C. Most silicon-containing compositions formed a glassy surface layer, covering an interior oxide layer. This interior layer was less porous in tantalum-containing compositions. Small concentrations of TaB2 additions were more effective at increasing oxidation resistance than equal additions of TaSi2. The benefit of these additives was related to the formation of fine particles of ZrO2 and TaC during oxidation. These particles resisted wicking of their liquid/glassy borosilicate encapsulation. With increasing TaB2 or TaSi2 concentration, oxidation resistance degraded. In these cases, zirconia dendrites appeared to grow through the glassy layers, providing conduits for oxygen migration. At 1700 C and above, a layer of ZrB2 devoid of SiC was argued to be from preferential removal of SiC by reaction of silica oxidation product with adjacent unreacted SiC to form escaping gases.

Medios de comunicación Libros     Paperback Book   (Libro con tapa blanda y lomo encolado)
Publicado 1 de diciembre de 2010
ISBN13 9783843379892
Editores LAP LAMBERT Academic Publishing
Páginas 112
Dimensiones 226 × 7 × 150 mm   ·   185 g
Lengua Alemán