Features of laser radiation interaction with metals having cryogenic temperature |
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Authors: | Tatiana Khatko |
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Affiliation: | a Physical Technical Institute, National Academy of Sciences of Belarus, Kuprevich 10, 220141 Minsk, Belarus b Universitat Rovira i Virgili, Països Catalans 26, 43007 Tarragona, Spain |
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Abstract: | In this paper we determine the features of the thermophysical processes involved in the interaction of laser radiation with metals that have cryogenic temperature. To do so, we use a one-dimensional model that involves heating a semi-infinite solid by a point thermal source with a constant flux density. Temperature fields, heating and cooling rates in the laser-irradiated zone for iron and titanium at the ambient temperatures of 77 (liquid nitrogen), 293 and 573 K were calculated. The intensity of the laser irradiation enabled the melting temperatures of 1933 K and 1812 K on the Ti and Fe surface, respectively, to be reached. The duration of the laser pulse was 4.5 ms. We show that a drop in ambient temperature from 573 to 77 K leads to a rise in cooling rate from 3.25 × 103 and 6.4 × 106 K/s to 4.25 × 103 and 1.3 × 107 K/s in the Ti and Fe targets, respectively. Agreement was good between the calculated depths of melting and phase transformation isotherms and the experimental depths of the interfaces of melting and heat-affected zones. |
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Keywords: | 52.50.Jm 61 |
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