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dc.contributor.authorAnglada Gomila, Marcos Juan
dc.contributor.authorPavon, Juan José
dc.contributor.authorGalvis, Oscar
dc.contributor.authorEchevarria, F
dc.contributor.authorCastaño, J
dc.contributor.authorEcheverry, M
dc.contributor.authorRobledo, S
dc.contributor.authorJiménez Piqué, Emilio
dc.contributor.authorMestra Rodríguez, Álvaro Miguel
dc.contributor.otherUniversitat Politècnica de Catalunya. Departament de Ciència dels Materials i Enginyeria Metal·lúrgica
dc.identifier.citationPavon, J. [et al.]. Anodic oxidation of titanium for implants and prothesis: processing characterization and potential improvement of osteointegration. A: Congreso Latinoamericano de Ingeniería Biomédica. "Actas CLAIB 2011". La Habana: 2011, p. 1-4.
dc.description.abstractAmong all biomaterials used for bone replacement, it is recognized that both commercially pure titanium (Ti c.p.) and Ti6Al4V alloy are the materials that show the best in vivo performance due to their excellent balance between mechanical, physical-chemical and biofunctional properties. However, one of its main drawbacks, which compromise the service reliability of the implants and its osteointegration capacity, is the thin film of fibrous tissue around the implant due to the bioinert behaviour of titanium. One of the alternatives more studied to improve the titanium osteointegration is the surface modification through the control of the roughness parameters within a specific range which is recognized that improve the osteoblasts adhesion. In this work is investigated the influence of different electrochemical processing conditions for surface modification of c.p. Ti, in their microstructural, morphological, topographical and mechanical properties, as well as in their biological behaviour. The electrochemical anodizing treatment was performed by using different electrolytes based on phosphoric acid (H3PO4), sulphuric acid (H2SO4) with a fluoride salt; and the Focused Ion Beam (FIB) technique, normally named as Nanolab, was used for the microstructural, chemical and morphological characterization, as well as the confocal laser microscopy technique which also served for roughness measurements. The mechanical response of the anodic layers was evaluated through the using of a scratch tester which showed the critical loads for the coating damages. The characterization results showed that both, concentrations and electrolyte species, clearly influenced the morphological and topographical features, as well as the chemical composition of the anodic layer. By using the FIB was possible to detect nanopores within both the surface and the bulk of the coating. Some of the conditions generated a very special coating morphology which promoted a better osteoblasts adhesion. Contrary to what it was a priory expected, all anodic coatings showed high critical loads for damages during scratch test, despite their high porosity, which could be related with some defects coalescence mechanism that allows dissipating the high stress concentration applied during the test.
dc.format.extent4 p.
dc.rightsAttribution-NonCommercial-NoDerivs 3.0 Spain
dc.subjectÀrees temàtiques de la UPC::Enginyeria biomèdica::Biomaterials
dc.titleAnodic oxidation of titanium for implants and prothesis: processing characterization and potential improvement of osteointegration
dc.typeConference report
dc.subject.lemacImplants artificials
dc.contributor.groupUniversitat Politècnica de Catalunya. CIEFMA - Centre d'Integritat Estructural, Micromecànica i Fiabilitat dels Materials
dc.rights.accessOpen Access
dc.description.versionPostprint (published version)
local.citation.authorPavon, J.; Galvis, O.; Echevarria, F.; Castaño, J. G.; Echeverry, M.; Robledo, S.; Jiménez-Piqué, E.; Mestra, A.; Anglada, M.
local.citation.contributorCongreso Latinoamericano de Ingeniería Biomédica
local.citation.pubplaceLa Habana
local.citation.publicationNameActas CLAIB 2011

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