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Literature DB >> 20508961

Argon ion laser curing depth effect on a composite resin.

Míriam Lacalle Turbino¹, Luis Carlos Belan, Valéria Soprano, Kátia Martis Rode, Patrícia Ramos Lloret, Michel Nicolau Youssef.

Abstract

The aim of this study was to define optimal power settings as well as curing time associated with evaluating the curing depth of a composite resin as a function of Vickers hardness. The tests were performed with a hybrid composite resin cured with a halogen lamp and argon ion laser, with different exposure times and power settings. The composite resin bulk technique was used using a black polypropylene matrix with thicknesses ranging from 1 to 4 mm and Vickers microhardness was measured on the opposite surface of the light activation. ANOVA and Tukey statistical tests were used. The results showed that the groups activated by the laser for 20 s, at 200 and 250 mW, did not present statistically significant differences regarding the halogen lamp with 1 mm thickness, but the halogen lamp showed better results with thickness values more than 2 mm (p < 0.05).

Entities: Chemical Disease

Mesh：

Substances：
Composite Resins

Year: 2010 PMID： 20508961 DOI： 10.1007/s10103-010-0785-x

Source DB: PubMed Journal: Lasers Med Sci ISSN： 0268-8921 Impact factor: 3.161

22 in total

1. In vitro temperature change at the dentin/pulpal interface by using conventional visible light versus argon laser.

Authors: D S Cobb; D N Dederich; T V Gardner
Journal: Lasers Surg Med Date: 2000 Impact factor: 4.025

Review 2. Laser curing of dental materials.

Authors: G L Powell; R J Blankenau
Journal: Dent Clin North Am Date: 2000-10

4. The effects of irradiance and exposure time on the surface roughness of bulk-fill composite resin restorative materials.

Authors: Fahad I Alkhudhairy
Journal: Saudi Med J Date: 2018-02 Impact factor: 1.484

4 in total

Argon ion laser curing depth effect on a composite resin.

1. In vitro temperature change at the dentin/pulpal interface by using conventional visible light versus argon laser.

Review 2. Laser curing of dental materials.

3. Light-curing technology: past, present, and future.

4. Curing efficiency of various types of light-curing units.

5. Dentine bond strength of a composite resin polymerized with conventional light and argon laser.

6. Degree of composite resin polymerization with visible light and argon laser.

7. Polymerization shrinkage of restorative resins using laser and visible light curing.

8. Physical properties of composites cured with conventional light or argon laser.

Review 9. Using lasers in clinical dental practice.

10. Polymerization depths of contemporary light-curing units using microhardness.

1. Effect of two lasers on the polymerization of composite resins: single vs combination.

2. Influence of photoactivation source on restorative materials and enamel demineralization.

3. Five second photoactivation? A microhardness and marginal adaptation in vitro study in composite resin restorations.

4. The effects of irradiance and exposure time on the surface roughness of bulk-fill composite resin restorative materials.