Mechanical and Thermal Properties of Dental Resin Nanocomposite Material Polymerized by Diode Laser

This paper evaluates the effect of continuous light and direct inversion of a two-wave laser valve to healing a resin-based material: Ivoclar Vivadent Tetric Nano Ceram Light Cured Hybrid renovated composite material on hardness, compression strength and temperature rise properties. Hardness was determined by (Amsler, KARL-KOLB/Germany) tester. Compression was determined by a universal testing and high temperature was measured using, the type L digital thermocouple. Samples are prepared then curing with irradiation time (10, 20, 30, 40, 50, and 60) Sec. The results obtained on the average (hardness, compressive strength and temperature) velocity of the Tetric N-Ceram composite resin composite disc polymerised with a diode laser as a function of exposure, compared with usage statistics (linear logarithmic, quadratic, linear and power). Diode Laser showed the highest mechanical property values and minimum temperature recorded in the reflective laser diode method was 2oc, the maximum temperature through direct method for a diode laser irradiation was 5.4° C, which is better at a tolerance of more 10° C. The study showed that a diode can enhance the mechanical and thermal property of the compound.