APPLICATION OF CHEMICAL THERMODYNAMICS TO ANALYSIS OF LASER THERMOCHEMICAL ACTION ON METALS
Annotation
Computational thermodynamic approach is proposed for evaluation of phase-chemical composition of metal surface under laser oxidation in the normal atmosphere, depending on its bulk composition, laser exposure conditions, and composition of the atmosphere. The approach is used for analysis of laser heating of commercial titanium Grade 2 in the air.
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Articles in current issue
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- RECORD OF BRAGG GRATING IN AN ANISOTROPIC OPTICAL FIBER USING ArF EXCIMER LASER
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- MATHEMATICAL SIMULATION OF STRESS-STRAIN IN GLASS-CARBON MATERIALS UNDER ULTRAFAST LASER TREATMENT
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- COMPUTATIONAL MODEL OF POLARIZATION AND SPECTRAL CHARACTERISTICS OF LASER MIRRORS AND OPTICAL CAVITIES
- METHODS OF CURRENT PULSE CORRECTION IN POWER SUPPLY UNITS FOR DIODEPUMPED LASERS
- ROUGHNESS MEASUREMENT OF PRECISION OPTICAL SURFACES BY THE INTERFERENCE MICROSCOPY METHOD