Abstract
In the measurement of thermal diffusivity by the laser flash method, a temperature rise occurs in the sample as a pulsed laser hits on the sample surface. Due to the temperature dependence of thermal diffusivity of the sample, the thermal diffusivity corresponds to a temperature that is larger by T eff than the temperature before laser irradiation is applied. This effective temperature rise, T eff, has been investigated by using a numerical simulation. The results indicate that the effective temperature rise is almost equal to a maximum temperature rise, T M, of the back surface of the sample in cases where both linear and nonlinear temperature variations of thermal diffusivity are considered.
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