Effect of different thermo–light polymerization on flexural strength of two glass ionomer cements and a glass carbomer cement

@article{Gorseta2017EffectOD,
  title={Effect of different thermo–light polymerization on flexural strength of two glass ionomer cements and a glass carbomer cement},
  author={Kristina Gorseta and Ali Borzabadi-Farahani and Alireza Moshaverinia and Domagoj Glavina and Edward Lynch},
  journal={The Journal of Prosthetic Dentistry},
  year={2017},
  volume={118},
  pages={102–107}
}
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Flexural Strength of Glass Carbomer Cement and Conventional Glass Ionomer Cement Stored in Different Storage Media over Time

Evaluating flexural strength of a conventional GIC (Fuji IX) against a newly developed glass carbomer cement (GCP) found that time is the unique factor with relative influence on mean resistance to fracture.

Microhardness of glass carbomer and high-viscous glass Ionomer cement in different thickness and thermo-light curing durations after thermocycling aging

The thermo-light curing process improved the microhardness of the GCP group without varnish application and Varnish application increased the micro Hardness ofThe EF group without applying thermo -light curing.

Evaluation of physical and mechanical properties of glass carbomer cement under in vitro conditions

The glass carbomer cement showed a lower μTBSto the dentine than the compomer, and the microhardness of the carbomer was lower than thecompomer and glass ionomer.

Flexural strength and surface microhardness of materials used for temporary dental disocclusion submitted to thermal cycling: An in vitro study.

Assessing the effect of ceramic additives on the physical, rheological and mechanical properties of conventional glass ionomer luting cement – An in-vitro study

Evaluation of microhardness of newly developed glass carbomer-based dental filling material

It was seen that microhardness of materials which used in the study was effected both time and heat, while Riva LCTM and GCP Glass FillTM were the softest.

Impact of modification with cetylpyridinium chloride - a potential cariogenic microbiota inhibitor, on selected physical-mechanical properties of the water-activated glass-ionomer.

There was no significant effect of cetylpyridinium chloride concentration on the hardness of the samples that significantly increased during the study, and with the increase in antimicrobial concentration a decrease in diametral tensile strength value was observed, but these values did not change over time.

Evaluation of stress distribution of a new restorative material and composite resin: a finite-element analysis study

The obtained results suggest that glass carbomer may be recommended as a preferred filler restorative material in teeth with much structure loss.

Effect of synthetic amorphous calcium phosphate nanoparticles on the physicochemical and biological properties of resin-modified glass ionomer cements.

Effects of high temperature on dental restorative materials for forensic purposes

Dental materials demonstrated specific macroscopic changes and microstructural deteriorations detected by SEM images after exposure to high temperature, and several changes occurred in the elemental content of materials in terms of amount.

References

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