레이저 섬광법을 이용한 수종 치과용 복합레진의 열확산도 분석

This study aimed to measure the thermal diffusivity of various dental composites using laser flash analysis and to investigate its relationship with filler content of composites. Four high-viscosity and two low-viscosity composites were selected. Among the high-viscosity composites, two composites were tested in three different shades each, resulting in a total of 10 different composite types. The specimen was prepared by placing the composite in a 10×10×1 mm acrylic mold between two glass slides, compressing them with a vise and photopolymerizing with an LED curing light. Thermal diffusivity was measured at 25℃ using laser flash analysis (n=3). To determine filler content, the specimen was heated to 800℃, and weight loss was measured to calculate weight percentage (wt%) of fillers (n=3). The highest thermal diffusivity was observed in the high-viscosity micro-hybrid composite, followed by high-viscosity nanocomposites, high-viscosity bulk-fill composites, and low-viscosity composites, in descending order (p<0.05). Filler content was also highest in the high-viscosity micro-hybrid composite, and lowest in the low-viscosity composites (p<0.05). No statistically significant differences in thermal diffusivity and filler content were observed among different shades of high-viscosity nano- and bulk-fill micro-hybrid composites (p>0.05). Laser flash analysis enabled quantitative evaluation of thermal diffusivity of dental composites, and thermal diffusivity tended to increase with higher filler content. When filler content was similar, differences in thermal diffusivity were observed depending on the composition and type of filler particles.