Effect of plasticizer on production of bioactive synthetic calcium phosphates/glass composites and their properties

Bioactive synthetic calcium phosphates/glass composites have been produced using PVA as a plasticizer (0, 10, 15, 20 mass%). Changes in the linear, volumetric and weight parameters of samples upon sintering at 800 °C as well as in the density, porosity and compression strength have been investigated...

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Bibliographic Details
Published in:Materials letters 2011-08, Vol.65 (15), p.2391-2394
Main Authors: Sych, Olena, Pinchuk, Nataliya, Ivanchenko, Liana
Format: Article
Language:English
Subjects:
bioactive properties
Calcium phosphate
calcium phosphates
ceramics
Composite
Compressive strength
Density
Glass
Hydroxyapatite
microstructure
Plasticizers
Polymer matrix composites
Polyvinyl alcohols
Porosity
PVA
shrinkage
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Summary:Bioactive synthetic calcium phosphates/glass composites have been produced using PVA as a plasticizer (0, 10, 15, 20 mass%). Changes in the linear, volumetric and weight parameters of samples upon sintering at 800 °C as well as in the density, porosity and compression strength have been investigated. It was established that all of the ceramics studied (both produced with and without PVA) exhibit a linear (0.7–1.9%) and volumetric (2.3–4.9%) shrinkage, which increases with using PVA and raising its content. The microstructure examination of samples obtained with a plasticizer revealed a complex porous morphology and the presence of complex-shaped 10–50 µm pores. An increase in PVA amount led to transformation of a flake-like structure and formation of particles of regular rounded shape. The pycnometric density did not depend on using PVA and equaled 2.58–2.61 g/cm 3. PVA promoted an increase in the total porosity from 24.7 to 35.8% and a decrease in the density by 1.66 to 1.89%. Porosity increased proportionally to the amount of introduced PVA and was the highest for composites produced with 20 mass% addition of PVA. Open porosity dominated in all of the composites with PVA addition. The ultimate compression strength was in the range 42–93 MPa and reduced with increasing PVA amount.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2011.04.085