Magnetohydrodynamic Model of a 3D Printer for Steel Melt

V. B. Oshurko; A. M. Mandel’; A. A. Sharts; K. G. Solomakho

doi:10.1134/S1063784218120137

Magnetohydrodynamic Model of a 3D Printer for Steel Melt

Authors: Oshurko V.B.¹, Mandel’ A.M.¹, Sharts A.A.¹, Solomakho K.G.¹
Affiliations:
1. Moscow State Technological University STANKIN
Issue: Vol 63, No 12 (2018)
Pages: 1730-1735
Section: Gases and Liquids
URL: https://journals.rcsi.science/1063-7842/article/view/202404
DOI: https://doi.org/10.1134/S1063784218120137
ID: 202404

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Abstract

The main problems of the development of 3D printers for machine engineering are related to low rate of printing and low quality of fabricated items. The problems can be solved using a new principle of high-efficiency 3D printing for steel melt based on the compression of the melt jet by magnetic field of flowing current and an increase in the crystallization temperature. Under certain conditions, the heat liberation of current can be compensated for using alternative processes. Ranges of parameters at which the effect can be implemented are determined.

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Magnetohydrodynamic Model of a 3D Printer for Steel Melt

Full Text

Abstract

About the authors

V. B. Oshurko

A. M. Mandel’

A. A. Sharts

K. G. Solomakho

Supplementary files