2004
DOI: 10.1007/s11661-004-0372-5
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Undercooling and solidification of Al-50 at. pct Si Alloy by electromagnetic levitation

Abstract: Electromagnetic levitation is applied to achieve containerless solidification of 10-mm-diameter droplets of Al-50 at. pct Si. A maximum undercooling of 320 K is obtained. Phase morphologies on the droplet surfaces and on the deeply etched sections of the samples solidified at different undercoolings are examined by scanning electron microscopy. The primary silicon shows well-developed faceted dendrites at a small undercooling, but a fine granular form at a large undercooling. Stratified deposits of aluminum ar… Show more

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Cited by 37 publications
(11 citation statements)
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“…However, it is not easy to obtain the thermal conductivity numerically from Eqs. (9) to (10), and the levitated melts observed had an oval shape, not a spherical one. Therefore, numerical simulations that account for deformation of a levitated melt were performed using the commercial software package FIDAP 8.6 [22], which is based on the finite element method.…”
Section: Analysis Of Periodic Heating Methods For Specimenmentioning
confidence: 88%
See 1 more Smart Citation
“…However, it is not easy to obtain the thermal conductivity numerically from Eqs. (9) to (10), and the levitated melts observed had an oval shape, not a spherical one. Therefore, numerical simulations that account for deformation of a levitated melt were performed using the commercial software package FIDAP 8.6 [22], which is based on the finite element method.…”
Section: Analysis Of Periodic Heating Methods For Specimenmentioning
confidence: 88%
“…There are several techniques for containerless processing: gas-jet levitation [3], magnetic levitation [4,5], electrostatic levitation [6,7], and electromagnetic levitation (EML) [8,9]. For gas-jet levitation the gravitational force is balanced by the aerodynamic force of gas flow from the nozzle.…”
Section: Introductionmentioning
confidence: 99%
“…Discontinuity in load displacement, which is known as a 'pop-in' effect, was observed frequently in aluminium, indicating a process of producing mobile dislocations. The initial pop-in is usually associated with homogeneous dislocation nucleation, while subsequent similar events often involve avalanches of dislocation activity [14]. It is believed that the aluminium matrix in Al-Si cast alloys has some solubility for additional elements, which interact with the dislocation activity, leading to a plastic instability in the unloading curve.…”
Section: Aluminiummentioning
confidence: 99%
“…In the past several decades, the specific heat and related thermodynamic properties of under-cooled metals, alloys and oxides have been investigated, by electromagnetic [7][8][9][10][11][12][13][14][15] and electrostatic [16,17] levitation, whose techniques can easily realize the deep under-cooling of melts. But the heat transmission in the process of levitation lacks accurate control and measurement, and the techniques can measure only the average specific heat of under-cooled melts, which does not accurately show the relation between specific heat and temperature.…”
mentioning
confidence: 99%