Mechanical behavior of newly developed glass carbomer-based dental filling material

Keywords: Glass carbomer, heat application, mechanical behavior, glass ionomer, Equia

Abstract

Aim: This study measured the microhardness of a newly developed glass carbomer dental filling material within the first 24 hours after setting and compared it against that of two different glass ionomers, with and without heating during setting, and a resin-modified glass ionomer.

Methodology: Six cavities were prepared on acrylic resin discs. PMMA blocks were randomly divided into six groups of six cylinders and each cavity was filled with one of the tested materials according to their group. The groups were: Group1, Fuji Triage™ with heat; Group 2, GCP Glass Fill™; Group 3, Equia™ with heat; Group 4, Riva LC™; Group 5, Fuji Triage™; and Group 6, Equia™. Microhardness was measured by the Vickers hardness scale using a microindentation hardness tester at 2, 4, 6, 12 and 24 hours after initial setting of the materials.

Results: After 24 hours, the glass carbomer  (GCP Glass Fill™) was not the strongest of the tested materials. Fuji Triage™ with heat applied during setting (Group 1) proved to be the hardest material, while Riva LC™ (Group 4) and GCP Glass Fill™ (Group 2) were the softest.  Heating the Fuji Triage™ during the initial setting period significantly increased its physical strength after 24 hours.

 

How to cite this article: Arslanoğlu Z, Kale E, Meşe A, Altan H. Evaluation of microhardness of newly developed glass carbomer-based dental filling material. Int Dent Res 2019;9(2):58-62.

 

Linguistic Revision: The English in this manuscript has been checked by at least two professional editors, both native speakers of English.

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Published
2019-08-31
How to Cite
Arslanoğlu, Z., Kale, E., Meşe, A., & Altan, H. (2019). Mechanical behavior of newly developed glass carbomer-based dental filling material. International Dental Research, 9(2), 58-62. https://doi.org/10.5577/intdentres.2019.vol9.no2.4