I. N. Shiganov scite author profile

A physical model of formation of stratified structures of components in a stiffening melt after the action of a penetrating laser beam on the heterogeneous system is considered. The model explains the formation of layers by centrifugal "running' or "tightening' of microparticles in size about 104-102cm of an impurity (either heavier, or easier in relation to the basic material). This centrifugal effect should be shown in vortex melt flows, with speeds in the range of several cm/s, generated by hydrodynamic instabilities of the certain nature. In the case of continuous scanning of a CW beam along the surface of a material, there can be generated non-stationary regular three-dimensional vortex melt flows explained by injection of flooded melt jets from a front wall keyhole (KH). After solidification of the heterogeneous melt, behind of traveling KH the strip-looking layers of an insoluble impurity are observed in the direction of beam scanning velocity. Our experimental data do not contradict to this model. In the case of cylindrical-symmetric layer melt, surrounding the KH in the absence of scanning of the laser beam, the vortex flows arise due to capillary collapse ofthe KH. After deenergizing the laser and solidification ofthe melt, periodic layers of the insoluble impurity are fixed which look like curved "disks" located transverse to the keyhole axis.

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Copper Vapor Laser with One-Beam Radiation of Diffraction Quality and Its Capabilities for Microprocessing of Materials for Electronic Engineering Products

Lyabin¹,

Chursin²,

Paramonov³

et al. 2014

S&E BMSTU

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Kinetics of the WC particles motion in liquid steel during laser surface modification*

Grigoryants

Shiganov

Perestoronin

et al. 2021

Welding International

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I. N. Shiganov

Technology of low-frequency vibrational treatment of welded structures in engineering

Optimization of the shape of nozzles for coaxial laser cladding

Hydrodynamical model of melt component stratification during scanning-laser-beam interaction with heterogeneous materials

Copper Vapor Laser with One-Beam Radiation of Diffraction Quality and Its Capabilities for Microprocessing of Materials for Electronic Engineering Products

Kinetics of the WC particles motion in liquid steel during laser surface modification*

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