Application of the Zero-Order Reaction Rate Model and Transition State Theory to predict porous Ti6Al4V bending strength
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Otros documentos de la autoría: Reig, Lucía; Amigó Borrás, Vicente; Busquets Mataix, David Jerónimo; Calero Carretero, José Ángel; Ortiz, J. L.
Metadatos
Mostrar el registro completo del ítemcomunitat-uji-handle:10234/9
comunitat-uji-handle2:10234/7035
comunitat-uji-handle3:10234/8617
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INVESTIGACIONMetadatos
Título
Application of the Zero-Order Reaction Rate Model and Transition State Theory to predict porous Ti6Al4V bending strengthAutoría
Fecha de publicación
2012-08Editor
ElsevierISSN
0928-4931Cita bibliográfica
L. Reig, V. Amigó, D. Busquets, J.A. Calero, J.L. Ortiz, Application of the Zero-Order Reaction Rate Model and Transition State Theory to predict porous Ti6Al4V bending strength, Materials Science and Engineering: C, Volume 32, Issue 6, 1 August 2012, Pages 1621-1626, ISSN 0928-4931Tipo de documento
info:eu-repo/semantics/articleVersión de la editorial
http://www.sciencedirect.com/science/article/pii/S0928493112001713Palabras clave / Materias
Resumen
Porous Ti6Al4V samples were produced by microsphere sintering. The Zero-Order Reaction Rate Model and Transition State Theory were used to model the sintering process and to estimate the bending strength of the porous ... [+]
Porous Ti6Al4V samples were produced by microsphere sintering. The Zero-Order Reaction Rate Model and Transition State Theory were used to model the sintering process and to estimate the bending strength of the porous samples developed. The evolution of the surface area during the sintering process was used to obtain sintering parameters (sintering constant, activation energy, frequency factor, constant of activation and Gibbs energy of activation). These were then correlated with the bending strength in order to obtain a simple model with which to estimate the evolution of the bending strength of the samples when the sintering temperature and time are modified: σY=P+B·lnT·t−ΔGaR·T. Although the sintering parameters were obtained only for the microsphere sizes analysed here, the strength of intermediate sizes could easily be estimated following this model. [-]
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Materials Science and Engineering: C, Vol. 32, no. 6, (2012) p. 1621–1626Derechos de acceso
http://rightsstatements.org/vocab/CNE/1.0/
info:eu-repo/semantics/openAccess
info:eu-repo/semantics/openAccess
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