Effect of the phosphorous content and synthesis method on the in vitro bioactivity and mechanical properties of calcium aluminate cements

The effect of the synthesis method and the phosphorous content on the in vitro bioactivity, compressive strength and setting time of phosphorous-containing calcium monoaluminate cements (CACs) was studied. In order to obtain pure monoclinic calcium aluminate (CA), two methods were used: Pechini and...

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Bibliographic Details
Published in:Ceramics international 2017-11, Vol.43 (16), p.13592-13601
Main Authors: Sánchez-Escobedo, B.A., Escobedo-Bocardo, J.C., Cortés-Hernández, D.A., Almanza-Robles, J.M., García-Álvarez, G.
Format: Article
Language:English
Subjects:
Bioactive cement
Calcium aluminate cement
Compressive strength
Pechini method
Phosphorous additions
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Summary:The effect of the synthesis method and the phosphorous content on the in vitro bioactivity, compressive strength and setting time of phosphorous-containing calcium monoaluminate cements (CACs) was studied. In order to obtain pure monoclinic calcium aluminate (CA), two methods were used: Pechini and solid state reaction, incorporating the phosphorous to CA during synthesis. After 7 days of immersion in a simulated body fluid (SBF), a Ca-P rich compound was formed on the surface of all the CACs. The amount of this compound was increased as phosphorous content and immersion time were increased and its morphology was finer for the CACs obtained from CAs synthetized by Pechini method. Phosphorous-containing CACs showed a higher compressive strength than those with no P after 21 days of immersion in SBF. Final compressive strength of CACs elaborated with CA synthetized by solid state reaction was higher than that of CACs elaborated with CA synthetized by Pechini method due to the smaller particles obtained by this advanced method which promote a rapid hydration. Setting times decreased as phosphorous content was increased, being shorter in cements elaborated with CA synthetized by Pechini method due to the smaller particle size which has a strong effect on the hydration kinetics.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2017.07.068