Influence of Parameters of Melt Processing by Nanosecond Electromagnetic Pulses on the Structure Formation of Cast Aluminum Matrix Composites

The work is aimed at establishing the effect of nanosecond electromagnetic pulses (NEPs) with different amplitudes on the formation of the structure of cast aluminum matrix composites of the pseudo-binary Al–Mg 2 Si system with hypoeutectic (5 wt % Mg 2 Si) and hypereutectic (15 wt % Mg 2 Si) compos...

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Bibliographic Details
Published in:Russian journal of non-ferrous metals 2022-08, Vol.63 (4), p.392-399
Main Authors: Deev, V. B., Ri, E. Kh, Prusov, E. S., Ermakov, M. A., Kim, E. D.
Format: Article
Language:English
Subjects:
Aluminum
Aluminum base alloys
Aluminum matrix composites
Amplitudes
Chemistry and Materials Science
Composition
Crystallization
Electromagnetic pulses
Eutectic alloys
Foundry
Heat treatment
Intermetallic compounds
Irradiation
Magnesium compounds
Materials Science
Melts
Metal silicides
Metallic Materials
Particulate composites
Solid solutions
Solidification
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Summary:The work is aimed at establishing the effect of nanosecond electromagnetic pulses (NEPs) with different amplitudes on the formation of the structure of cast aluminum matrix composites of the pseudo-binary Al–Mg 2 Si system with hypoeutectic (5 wt % Mg 2 Si) and hypereutectic (15 wt % Mg 2 Si) composition. With an increase in the amplitude of the generator of NEPs in alloys with 5 and 15 wt % Mg 2 Si, the structural components of the matrix alloy (α-solid solution and eutectic) are refined, while no significant differences in the sizes and morphology of primary crystals of Mg 2 Si in the hypereutectic range of compositions were observed in the entire range of tested variants of the amplitude of the generator of NEPs. Presumably, the observed nature of the influence of NEPs on the structure of composites in the hypereutectic region of compositions is associated with the features of their crystallization behavior. The temperature range of the existence of the two-phase region L + Mg 2 Si is much lower than the temperatures of irradiation with NEPs; apparently, in connection with this, NEPs do not affect the thermodynamic state of the interfaces “primary crystal Mg 2 Si–melt.” It has been shown that a promising option for the simultaneous modifying effect on all structural components of Al–Mg 2 Si aluminum matrix composites (solid solution, eutectic, primary Mg 2 Si particles) is a combination of thermal-rate treatment and irradiation of melts with NEPs, as well as additional processing of melts by NEPs during solidification.
ISSN:1067-8212
1934-970X
DOI:10.3103/S1067821222040058