Influence of Thermal Treatment Conditions on the Properties of Dental Silicate Cements

Influence of Thermal Treatment Conditions on the Properties of Dental Silicate Cements

In this study the sol-gel process was used to synthesize a precursor mixture for the preparation of silicate cement, also called mineral trioxide aggregate (MTA) cement. This mixture was thermally treated under two different conditions (1400 °C/2 h and 1450 °C/3 h) followed by rapid cooling in air....

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Vol. 21; no. 2; p. 233
Main Authors: Voicu, Georgeta, Popa, Alexandru Mihai, Badanoiu, Alina Ioana, Iordache, Florin
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 18-02-2016
MDPI
Subjects:
Aluminum Compounds - chemistry
Apatite
Biocompatibility
Biological activity
Biomedical materials
Body fluids
Calcium Compounds - chemistry
Cell proliferation
Cement
Cements
Clinker
composition
Compressive strength
Dental cement
Dental Cements - chemistry
Dental materials
Differential thermal analysis
Drug Combinations
Heat treatment
hydration and hardening processes
In vitro methods and tests
Infrared analysis
Infrared spectroscopy
Materials Testing
Mechanical properties
mineral trioxide cement
Oxides - chemistry
Planetary mills
properties
Reaction products
Rot
Scanning electron microscopy
Setting (hardening)
setting time
Silicates - chemistry
Sol-gel processes
Surgical implants
Temperature
Thermal analysis
thermal treatment
X-Ray Diffraction
hydration and hardening processes
thermal treatment
biocompatibility
composition
setting time
mineral trioxide cement
properties
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Summary:In this study the sol-gel process was used to synthesize a precursor mixture for the preparation of silicate cement, also called mineral trioxide aggregate (MTA) cement. This mixture was thermally treated under two different conditions (1400 °C/2 h and 1450 °C/3 h) followed by rapid cooling in air. The resulted material (clinker) was ground for one hour in a laboratory planetary mill (v = 150 rot/min), in order to obtain the MTA cements. The setting time and mechanical properties, in vitro induction of apatite formation by soaking in simulated body fluid (SBF) and cytocompatibility of the MTA cements were assessed in this study. The hardening processes, nature of the reaction products and the microstructural characteristics were also investigated. The anhydrous and hydrated cements were characterized by different techniques e.g., X-ray diffraction (XRD), scanning electron microscopy (SEM), infrared spectroscopy (FT-IR) and thermal analysis (DTA-DTG-TG). The setting time of the MTA cement obtained by thermal treatment at 1400 °C/2 h (MTA1) was 55 min and 15 min for the MTA cement obtained at 1450 °C/3 h (MTA2). The compressive strength values were 18.5 MPa (MTA1) and 22.9 MPa (MTA2). Both MTA cements showed good bioactivity (assessed by an in vitro test), good cytocompatibility and stimulatory effect on the proliferation of cells.
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ISSN:1420-3049
1420-3049
DOI:10.3390/molecules21020233