2024-03-28T16:24:10Zhttp://digital.csic.es/dspace-oai/requestoai:digital.csic.es:10261/1109972017-03-13T11:09:39Zcom_10261_28457com_10261_3col_10261_28464
DIGITAL.CSIC
author
Gutiérrez-González, C. F.
author
Fernández-García, Elisa
author
Fernández, Adolfo
author
Torrecillas, Ramón
author
López-Esteban, Sonia
2015-02-23T10:54:43Z
2015-02-23T10:54:43Z
2013
ESB2013
http://hdl.handle.net/10261/110997
Numerous studies have investigated methods to overcome ceramics¿ drawbacks, and one of the most common procedures for this purpose is the incorporation of tough metallic particles into the ceramic matrix in order to fabricate a >cermet>1. The most obvious advantage of cermets is that they can favorably combine the dissimilar properties of the ceramic and metal components in one material. Moreover, the incorporation of metallic particles into a ceramic matrix introduces extrinsic reinforcement mechanisms that may lead to an increase of the fracture toughness with crack extension (R-curve)2. Alumina (Al2O3) and Titanium (Ti) are both well-known to be used as biomaterials. However, the composite material, Al2O3/Ti, has not been studied before. Thus, the two main goals of the present work are to study the mechanical characterization and the in vitro evaluation of the Al2O3/Ti cermets.
eng
closedAccess
Alumina/Titanium biocermet: Processing, mechanical and in vitro evaluation
póster de congreso
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accesoRestringido.pdf.txt
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accesoRestringido.pdf.txt