V. I. Malyi scite author profile

The role of the plasma in laser-metal interaction is of considerable interest due to its influence in the energy transfer mechanism in industrial laser materials processing. A 10 kW CO 2 laser was used to study its interaction with aluminium under an argon environment. The objective was to determine the absorption and refraction of the laser beam through the plasma during the processing of aluminium. Laser processing of aluminium is becoming an important topic for many industries, including the automobile industry. The spectroscopic relative line to continuum method was used to determine the electron temperature distribution within the plasma by investigating the 4158 Å Ar I line emission and the continuum adjacent to it. The plasmas are induced in 1.0 atm pure Ar environment over a translating Al target, using f/7 and 10 kW CO 2 laser. Spectroscopic data indicated that the plasma composition and behaviour were Ar-dominated. Experimental results indicated the plasma core temperature to be 14 000-15 300 K over the incident range of laser powers investigated from 5 to 7 kW. It was found that 7.5-29% of the incident laser power was absorbed by the plasma. Cross-section analysis of the melt pools from the Al samples revealed the absence of any key-hole formation and confirmed that the energy transfer mechanism in the targets was conduction dominated for the reported range of experimental data. R Lober and J Mazumder

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Vector properties of elastic-plastic materials at normal and low temperatures

Dubrovin¹,

Malyi²

1979

Soviet Applied Mechanics

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V. I. Malyi

Temperature dependence of stimulated raman scattering spectra in crystalline salts of inorganic acids

Theoretical Determination of the Five Physical Constants of the Toupin-Mindlin Gradient Elasticity for Polycrystalline Materials

One representation of the conditions of the compatibility of deformations

Some regularities in the spectra of inverse Raman scattering

Vector properties of elastic-plastic materials at normal and low temperatures

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