SE1300554A1 - En anordning för omrörning i stålgöt i en götgjutningsprocess - Google Patents

Abstract

Föreliggande uppfinning avser en anordning (1) för omrörning av stålgöt i en kokill (2) i en götgjutningsprocess. Anordning (1) innefattar en elektromagnetisk omrörarenhet (12, 14) för elektromagnetisk omröring i stålgöt (24), en multi-fas AC-strömförsörjning (20) som är operativt ansluten till den elektromagnetiska omrörningsenheten (12, 14), och en styrenhet (30) operativt ansluten till strömmatningen (20) för att styra driften av den elektromagnetiska omrörningsenheten (12, 14), varvid den elektromagnetiska omrörningsenheten (12, 14) är positionerad intill den yttre ytan av kokillen (2).(Fig. 1a)

Description

15 20 25 30 flow in the liquid steel. The strongest flow speed appears along the mush- liquid interface where melt locally flows downwards with typical speeds of a few centimeters per second. Closer to the center of the ingot, the flow recirculates upward again.

An uncontrolled traditional progressive solidification typically results in a number of defects in the cast ingot, for example segregation due to the fact that some solute elements have a much lower solubility in a solid than in a liquid phase, cracks, inclusions and center porosity. This leads to un- desired low yields for high quality steels as defect areas or entire ingots must be re-melted and cast again. These metallurgical problems can all be related to low flow speeds and insufficient turnaround of the melt.

Plasma Treatment Casting, denoted as PTC is a technology for stirring ingots. PTC imposes an electric field over the height of the ingot by apply- ing a rotating DC electrode above the ingot and another electrode at the base of the mold. A plasma arc strikes the top surface of the ingot in a rotating manner, feeding a varying current density to the steel in the mold.

The varying current density induces a varying magnetic flux density, and the current and the magnetic field together create a time varying stirring force on the ingot. Thus, stirring may increase yield by 10% for high grade steel ingots. However, when using PTC for stirring, the top surface of ingot steel may be exposed for oxidation when the rotating DC top electrode breaks the ambient gas protective slag layer on top of the molten steel.

Furthermore, PTC requires replacing electrodes frequently.

OBJECTS AND SUMMARY OF THE INVENTION The object of the present invention is to provide an alternative solution for stirring ingots in a steel ingot casting process in order to achieve a strong and controllable convection in the part of the steel ingot that has not yet solidified. Thus, high production and quality of cast products are achieved. 10 15 20 25 30 This object is achieved by an apparatus defined in claim 1. The apparatus for stirring of steel ingot comprises an electromagnetic stirrer unit for elec- tromagnetically stirring steel ingot, wherein the electromagnetic stirrer unit is arranged adjacently to the outer surface of the mold, a multi-phase AC current supply operatively connected to the electromagnetic stirrer unit, and a control unit operatively connected to the current supply to control the operation of the electromagnetic stirrer unit.

Due to the application of an electromagnetic stirrer, melt in the mold may flow with a speed about ten times higher than those of free convection. lt is easy to adapt the strength of the electromagnetic stirrer. Thus, a control of the different stages of solidificatíon in case that different amount of convection is needed is achieved. lt is advantageous to use electromagnetic stirring in an ingot casting pro- cess since it is a contactless technology that needs a minimum mainte- nance. Furthermore, electromagnetic fields can penetrate mold, covers and mold powder and thus the application of an electromagnetic stirring minimizes risk of oxidation of the top surface of the ingot steel in compari- son with PTC. Moreover, there is almost no wear on the electromagnetic stirrer, which has a very long lifetime.

The mold is conical shaped and its head is arranged at an end of the mold that has a larger diameter. ln one embodiment of the invention, the elec- tromagnetic stirrer unit is mounted on the outer surface of the head. Al- ternatively, the electromagnetic stirrer unit is mounted above of the head of the mold.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be explained more closely by the description of dif- ferent embodiments of the invention and with reference to the appended figures. 10 15 20 25 30 Fig. 1a shows a schematic view of an apparatus according to one embod- iment of the invention, wherein an electromagnetic stir unit is mounted on the outer surface of the head of a mold.

Fig. 1b shows a schematic view of an apparatus according to another em- bodiment of the invention, wherein an electromagnetic stir unit is mounted above of the head of the mold.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION Figure 1a shows a schematic view of an apparatus according to a first em- bodiment of the invention, wherein an electromagnetic stir unit is mounted on the outer surface of the head of a mold.

Figure 1b shows a schematic view of an apparatus according to a second embodiment of the invention, wherein an electromagnetic stir unit is mounted above of the head of the mold.

With reference to Figure 1a and 1b, the apparatus 1 comprises an elec- tromagnetic stirrer unit 10 for electromagnetically stirring steel ingot in a mold 2, a multi-phase AC current supply 20 operatively connected to the electromagnetic stirrer unit 10, and a control unit 30 operatively connected to the multi-phase AC current supply 20 to control the operation of the electromagnetic stirrer unit. ln those examples, the control unit 30 and the multi-phase AC current supply 20 are separate units, but they may be also configured to operate the electromagnetic stirring unit 12 as a single unit.

The mold 2 has a conical shape and is made of cast iron, wherein molten steel/melt 24 is filled. Its bottom/base has a smaller diameter, while its top/head has a larger diameter. The electromagnetic stirrer unit 10 may be arranged adjacently to the outer surface of the mold and arranged for stir- ring molten steel poured from a teeming ladle (not shown in the figures). 10 15 20 25 30 35 ln the first embodiment, the electromagnetic stir unit 10 comprises an electromagnetic stirrer 12 disposing circularly on the outer surface of the head 22 of the mold. With this arrangement, a circulating horizontal stir- ring is applied at the head of the mold, which creates a strong circulating flow covering the entire solidification front in a homogeneous fashion. This flow may have a velocity in the range 0.3-0.5 m/s and a vertical speed in the range 0-0.15 m/s. This arrangement may minimize segregation prob- lems since the flow speed homogenizes temperatures in the liquid and breaks off the dendrite tips of the solidification front to provide a homoge- neously equiaxed solidification with impurities distributed homogeneously. ln the second embodiment, a linear straight electromagnetic stirrer 14 is arranged on top of the head 22 of the mold 2. Thus the stirrer creates ver- tically circulating flow pattern induced in ingot, which may achieve a verti- cal speed in the range 0.3-0.5 m/s in the liquid transporting molten steel in a vertical circulation loop. This vertical speed enables a vertical transport of detrimental inclusions and thus an easier removal of the detrimental inclusions.

When multiphase AC currents are fed to the electromagnetic stirrer unit 11, 12 or 14 a travelling magnetic field is generated in the mold. For the first embodiment, the direction of this travelling magnetic flux density wave is along the circumference of the mold, while for the second embodiment along the stirrer length at the top of the mold. The harmonic magnetic field wave induces eddy currents in the electrically conducting ingot, combining with the magnetic field to produce a force distribution in the ingot. The main force direction is aligned with the travelling magnetic wave, thus cre- ating a stirring flow in the molten steel.

Due to the application of electromagnetic stirring to the ingot casting dur- ing solidification, the flow of the molten steel is drastically strengthened and controllable. The strong flow homogenizes temperatures in the melt and breaks off the dendrite tips. Therefore the equiaxed ratio of a solidi- fied product is increased. The flow circulation also washes non-metallic inclusions off the solidification front. Moreover, by the buoyancy effect due to the density difference between steel and non-metallic particles, the flow circulation enables inclusions to float up to the top of the mold where they can be extracted from the solidified clean steel. Thus, a final product of high quality is obtained.

Claims (3)

10 15 20 CLAIMS

1. An apparatus (1) for stirring of steel ingot in a mold (2) in an ingot cast- ing process, characterized in that the apparatus (1) comprising: - an electromagnetic stirrer unit (12, 14) for electromagnetically stirring steel ingot (24), wherein the electromagnetic stirrer unit (12, 14) is ar- ranged adjacently to the outer surface of the mold (2), - a multi-phase AC current supply (20) operatively connected to the elec- tromagnetic stirrer unit (12, 14), and - a control unit (30) operatively connected to the current supply (20) to control the operation of the electromagnetic stirrer unit (12, 14).

2. Apparatus (1) according to claim 1, wherein the mold (2) is conical shaped, the head (22) of the mold (2) being arranged at an end of the mold with a larger diameter and, wherein said electromagnetic stirrer unit (12) is mounted on the outer surface of the head (2).

3. Apparatus (1) according to claim 1, wherein the mold (2) is conical shaped, the head (22) of the mold (2) being arranged at an end of the mold with a larger diameter and wherein said electromagnetic stirrer unit (14) is mounted above of the head (22) of the mold (2).