Effect of Light Irradiance and Curing Duration on Degree of Conversion of Dual-Cure Resin Core in Various Cavities with Different Depths and Diameters

(1) Background: To compare the degree of conversion of resin cores in various types of cavities and determine an effective irradiation method for achieving a higher degree of conversion. (2) Methods: Four different-sized cavities (narrow-shallow, narrow-deep, wide-shallow, and wide-deep) were simula...

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Bibliographic Details
Published in:Materials 2024-09, Vol.17 (17), p.4342
Main Authors: Lim, Ho-Kyung, Keerthana, Subramanian, Song, So-Yeon, Li, Chongyang, Shim, Ji Suk, Ryu, Jae Jun
Format: Article
Language:English
Subjects:
Biocompatibility
Composite materials
Curing
Diameters
Fourier transforms
Hypotheses
Infrared spectra
Irradiance
Irradiation
Light emitting diodes
Molds
Near infrared radiation
Polymerization
Polytetrafluoroethylene
Radiometers
Resins
Spectrum analysis
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Summary:(1) Background: To compare the degree of conversion of resin cores in various types of cavities and determine an effective irradiation method for achieving a higher degree of conversion. (2) Methods: Four different-sized cavities (narrow-shallow, narrow-deep, wide-shallow, and wide-deep) were simulated using a Teflon mold. The light irradiance reaching the bottom of each mold was measured by positioning a radiometer. The degree of conversion of the dual-cure resin core after irradiation (400 mW/cm for 20 s, 400 mW/cm for 40 s, and 800 mW/cm for 20 s) was measured using Fourier-transform near-infrared spectroscopy. (3) Results: The highest light irradiance was found at the bottom of wide-shallow cavities, followed by wide-deep, narrow-shallow, and narrow-deep ones ( < 0.001). In narrow cavities, irradiation at 800 mW/cm for 20 s led to a significantly higher degree of conversion ( < 0.001). In wide cavities, irradiation at 400 mW/cm for 40 s and 800 mW/cm for 20 s both led to a significantly higher degree of conversion ( < 0.001). (4) Conclusions: Less curing light reaches the bottom of cavities with a smaller diameter and greater depth. Providing a higher irradiance of light can induce a higher degree of conversion of resin composites in narrower cavities.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma17174342