Pedimonte J, Travitzky N, Korn M, Kriegelstein S, Greil P (2011)
Publication Status: Published
Publication Type: Journal article, Original article
Publication year: 2011
Publisher: Wiley-VCH Verlag
Book Volume: 13
Journal Issue: 9
Biograde zirconia toughened alumina (ZTA) has found wide application in load bearing endoprosthetic implants due to high strength, fracture toughness, and wear resistance. In order to enhance bonding to acrylic bone cement (BC) for implants, fixation modification of ZTA with a thin layer of porous anodic alumina (PAA) was investigated. An Al-layer of approximately 500 nm was sputtered on the ZTA substrate which subsequently was electrochemically oxidized by anodic polarization in H C O or H PO solution. PAA layers with a total porosity ranging from 11 to 30%, mean pore spacing of 90-200 nm and pore diameters of 30-110 nm were prepared. Compared to unmodified ZTA/BC interface (≈ 30 MPa), the PAA modified specimens (ZTA/PAA/BC) achieved a significantly higher interface bonding strength (≈ 60 MPa) measured by four point bending on composite beam specimens. While crack propagation in the unmodified ZTA/BC specimen was found to proceed along the interface, fracture analysis on the ZTA/PAA/BC specimens showed a mixed mode fracture with part of the fracture propagation localized along the PAA/BC interface and part through BC. Thus, pore structure controlled mechanical interlocking is expected to offer a high potential for applying PAA surface modification to improve biomaterial to BC bonding. Bonding of ZrO toughened Al O (ZTA) to acrylic bone cement (BC) was improved by a PAA film, formed in H C O or H PO by electrochemical anodization of a sputtered Al-layer on the ZTA substrate. Compared to unmodified interface (≈ 30 MPa), the PAA modified specimens achieved a significantly higher interface bonding strength (≈ 60 MPa), due to mixed mode fracture with part of the crack propagation along the PAA/BC interface and part through BC. Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
APA:
Pedimonte, J., Travitzky, N., Korn, M., Kriegelstein, S., & Greil, P. (2011). Surface modification of an alumina-based bioceramic for cement application. Advanced Engineering Materials, 13(9). https://doi.org/10.1002/adem.201180004
MLA:
Pedimonte, J., et al. "Surface modification of an alumina-based bioceramic for cement application." Advanced Engineering Materials 13.9 (2011).
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