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Heat transfer modeling of local thermal excitation for surface crack detection and characterization
(2010)
In the presented paper the use of local excitation (laser beam) for crack detection and
characterization is simulated. As we could see, using the temperature differences between two
reference points was large enough to detect and characterize the crack, even for such small value of
laser power as 2 W. The influence of radiation and convection on the temperature difference was
negligible (about 0.1%). The influence of heat conduction, in case of crack with air, was very small
(about 3%). The main mechanism which influences the temperature differences between the
reference points is the heat conduction in steel. From the presented results one can see that
temperature differences are increasing with an increase of the crack depth or the crack length. Better
resolution and characterization of the crack depths and lengths should be achieved with increased
duration of heating time or the laser power. We could also see that the best position for the laser
spot to characterize the crack is the closest one. Also, comparison of 2D and 3D simulation results
for circular heat source used as local excitation mechanism had showed that only full 3D modelling
will allow accomplishing a quantitative level of comparison between experimental and simulation
results.