Kevin P. O’Flynn scite author profile

Glass of generic composition SiO(2) . Al(2)O(3) . P(2)O(5) . CaO . CaF(2) will crystallise predominantly to apatite and mullite upon heat-treatment. Such ceramics are bioactive, osseoconductive, and have a high resistance to fracture. As a result, they are under investigation for use as biomedical device coatings, and in particular for orthopaedic implants. Previous work has shown that the material can be successfully enamelled to titanium with an interfacial reaction zone produced during heat treatment. The present study uses high angle annular dark field transmission electron microscopy (HAADF-TEM) to conduct a detailed examination of this region. Results show evidence of complex interfacial reactions following the diffusion of titanium into an intermediate layer and the production of titanium silicides and titanium phosphides. These results confirm previously hypothesised mechanisms for the bonding of silicate bioceramics with titanium alloys.

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Nucleation and Early Stage Crystallization of Fluorapatite in Apatite-Mullite Glass-Ceramics

O’Flynn

Stanton

2010

Crystal Growth & Design

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The crystallization morphology and activation energy of fluorapatite formation in apatite-mullite glass-ceramics has been examined. A systematic change in the amount of network modifier in the base glass has demonstrated that increasing levels of network modifier cause a corresponding increase in activation energy for fluorapatite crystallization and a decrease in fluorapatite crystal size. Apatite-mullite glass-ceramics are known to phase separate and nucleate prior to crystallization. To separate these effects during activation energy determination, a nucleation hold was used to ensure the activation energy is purely for crystal growth and is not skewed by any phase separation or nucleation occurring. It is postulated that greater amounts of network modifier in the system cause the base glass to phase separate and nucleate to a greater extent during heating thus limiting the crystal growth.

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Optimisation of the enamelling of an apatite–mullite glass–ceramic coating on Ti6Al4V

O’Flynn

Stanton

2011

J Mater Sci: Mater Med

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Apatite-mullite glass-ceramics (AMGCs) are under investigation as a potential alternative to hydroxyapatite (HA) as a coating for cementless fixation of orthopaedic implants. These materials have tailorable mechanical and chemical properties that make them attractive for use as bioactive coatings. Here, AMGC coatings on Ti(6)Al(4)V were investigated to determine an improved heat treatment regime using a systematic examination of the different inputs: composition of glass, nucleation hold and crystallisation hold. An upper limit to the heat treatment temperature was determined by the α + β --> β of Ti(6)Al(4)V at 970°C. The glass composition was modified to produce different crystallisation temperatures and sintering characteristics. A glass was found that is fully crystalline below 970°C and has good sinterability. The effects of different heat treatment time and temperature combinations on the coating and substrate morphologies were examined and the most suitable combination determined. This sample was further investigated and was found to have qualitatively good adhesion and evidence of an interfacial reaction region between the coating and substrate indicating that a chemical reaction had occurred. Oxygen infiltration into the substrate was quantified and the new route was shown to result in a 63% reduction in penetration depth.

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Laser sintering and crystallization of a bioactive glass-ceramic

O’Flynn

Stanton

2013

Journal of Non-Crystalline Solids

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Kevin P. O’Flynn

Spherulitic crystallization of apatite–mullite glass-ceramics: Mechanisms of formation and implications for fracture properties

Study of the interfacial reactions between a bioactive apatite–mullite glass–ceramic coating and titanium substrates using high angle annular dark field transmission electron microscopy

Nucleation and Early Stage Crystallization of Fluorapatite in Apatite-Mullite Glass-Ceramics

Optimisation of the enamelling of an apatite–mullite glass–ceramic coating on Ti6Al4V

Laser sintering and crystallization of a bioactive glass-ceramic

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