OBJECTIVES: To investigate if and why a plasma arc curing (PAC) light tends to undercure methacrylate-based resins or resin composites. METHODS: Model dimethacrylate resins, commercial dental adhesives, and commercial resin composites were cured using a PAC light and a halogen light with the similar radiant exposures but different combinations of irradiance and irradiation time. The degree of double bond conversion (DC) was measured with FTIR spectroscopy and analyzed as a function of radiant exposure. RESULTS: The PAC light produced a lower DC than the halogen light for the model resin with the lowest viscosity and for three of the four adhesives. With a high irradiance, the PAC light could cure three of the four composites as thoroughly as its halogen counterpart. When the irradiance was reduced, however, three composites yielded a lower DC. CONCLUSIONS: Insufficient cure by PAC lights or any curing lights with very high irradiance is likely to happen when too short an irradiation time is used. It is because under higher irradiance, the lifetime of free radicals is shorter.
OBJECTIVES: To investigate if and why a plasma arc curing (PAC) light tends to undercure methacrylate-based resins or resin composites. METHODS: Model dimethacrylate resins, commercial dental adhesives, and commercial resin composites were cured using a PAC light and a halogen light with the similar radiant exposures but different combinations of irradiance and irradiation time. The degree of double bond conversion (DC) was measured with FTIR spectroscopy and analyzed as a function of radiant exposure. RESULTS: The PAC light produced a lower DC than the halogen light for the model resin with the lowest viscosity and for three of the four adhesives. With a high irradiance, the PAC light could cure three of the four composites as thoroughly as its halogen counterpart. When the irradiance was reduced, however, three composites yielded a lower DC. CONCLUSIONS: Insufficient cure by PAC lights or any curing lights with very high irradiance is likely to happen when too short an irradiation time is used. It is because under higher irradiance, the lifetime of free radicals is shorter.
Authors: Maria Cecília C Giorgi; Vinícius Pistor; Raquel S Mauler; Débora A N L Lima; Giselle M Marchi; Flávio H B Aguiar Journal: Lasers Med Sci Date: 2014-04-17 Impact factor: 3.161
Authors: Sri Vikram Palagummi; Taeseung Hong; Zhengzhi Wang; Chang Kwon Moon; Martin Y M Chiang Journal: Dent Mater Date: 2019-12-19 Impact factor: 5.304