EP1381483A2

EP1381483A2 - Increase in format thickness for thin slab continuous casting systems

Info

Publication number: EP1381483A2
Application number: EP02726188A
Authority: EP
Inventors: Axel Weyer; Hans Streubel
Original assignee: SMS Demag AG
Current assignee: SMS Siemag AG
Priority date: 2001-04-14
Filing date: 2002-03-20
Publication date: 2004-01-21
Also published as: WO2002083340A3; WO2002083340A2; AU2002256688A1; DE10118518A1

Abstract

The invention relates to a method for continuous casting of slabs, especially thin slabs, in a continuous casting system. Said system comprises a series of strand guiding segments (1-n) disposed underneath a casting mould (6), said segments being provided with pairs of rollers (8) arranged at a distance in a perpendicular position with respect to the casting strand (A), said rollers being able to be adjusted at a specific distance to each other. For variable adaptation of the system to slabs of different thicknesses, the casting strand (A) forms protuberances (2a-2n) inside the area associated with a liquid core path (7), in order to increase the thickness format, by sequential opening or closing of the adjustment of the feed opening of successive segments (1-n) as a result of the ferrostatic inner pressure of the liquid core thereof. The segments have a positioning and force adjusting function on the side of the device.

Description

Increasing the format thickness for thin slab caster

The invention relates to a method for the continuous casting of slabs, in particular thin slabs, in a continuous casting installation, having a sequence of strand guide segments below the mold with pairs of rollers arranged at a distance transversely to the casting strand, which compensate for the ferrostatic pressure in the liquid core of the casting strand in a certain section - were arranged to be adjustable. The invention also relates to an apparatus for performing the method.

Increases in format thickness in a thin slab caster during the casting process correspond to a current requirement for production optimization.

In the case of a liquid core reduction process (LCR) used in thin slab casting plants, a format thickness setting is known which does not exceed the mold exit thickness, i.e. that the max. Format of the cast strand is determined by the mold geometry.

In the known format thickness setting, a casting strand in front of the area of the soft reduction section is provided with a specific bulge by appropriate adjustment of the width of the segments as a result of the ferrostatic internal pressure. The bulge is fully or partially pushed back in the segment guide of the soft reduction section in which the residual solidification takes place.

In a known method according to document DE 41 38 740 A1, the strand runs through a soft reduction section, at the entry of which it has not yet solidified, but at the end of which it should be solidified, for which purpose Among other things, the casting speed represents an essential operating parameter. In the area of final solidification, a thickness reduction is carried out, for example, for thin slabs between 0.5 and 3 mm per meter of casting length. For this purpose, the pairs of rollers of individual segments in the soft reduction section are adjusted more closely beyond the shrinkage behavior of the strand, in order to achieve an improvement in the inner strand quality in the area of residual solidification.

EP 0 834 364 A1 describes a method and a device for high-speed continuous casting plants with a reduction in strand thickness during solidification, the melt preferably being poured into an oscillating mold and the strand cross section linearly over a minimum length of the strand guide directly under the mold, the so-called Casting rolls, is reduced. This is followed by a further strand reduction via the remaining strand guidance, the "soft reduction", up to a maximum of just before the end of the strand or the top of the sump. By means of this procedural measure, the deformation density of the reduction of the strand cross section is predetermined in such a way that the critical deformation of the strand shell is not exceeded, taking into account the high casting speed and the steel grade.

EP 0 177 796 B1 discloses a method for guiding and straightening a casting strand in the drawing and outlet area of a continuous sheet casting installation, wherein oppositely arranged rollers are held at a distance corresponding to the casting process by a spring force against the ferrostatic internal pressure of the casting strand. A cast strand area of increased strength is tracked away and when it passes between opposing rollers, the respective spring force is reduced by a small additional force. This proposal, namely to continuously adjust the clear distance or the mouth width via hydraulic cylinders with built-in inductive displacement measurement and servo valves, requires a computational or metrological determination of the position of the sump tip. Starting from the aforementioned prior art, the invention has for its object to enable a variable increase in thickness of the thin slab to be produced, which is above the size of the mold outlet thickness without changing the mold geometry, and wherein the generated format thickness, measured at the outlet of the continuous caster, is greater than the format thickness that is generated on the mold exit side.

To achieve the object is proposed in a method of the type mentioned in the preamble of claim 1 with the invention that the cast strand within the area of a liquid core section with sequential opening of the mouth width setting of successive segments under the effect of the ferrostatic internal pressure of the liquid Kerns bulges to increase the format thickness.

The process is also characterized by the following working steps: casting a strand with a format thickness corresponding to a segment setting according to the outlet cross section of the mold, successive simultaneous opening of the mouth width setting at the outlet of a first segment and at the inlet of the subsequent segment with formation of a bulge (phase 1 ).

To increase the format thickness of the strand, it is used according to the ferrostatic-related bulging of the non-solidified warm strand in the strand guide above the sump tip.

Further advantageous refinements of the method provide that a format thickness, measured at the outlet of the last expanding segment, is generated which is greater than the format thickness at the outlet of the mold.

According to the invention, the increase in format thickness depending on the steel quality is up to 20 mm per meter segment length, preferably between 0.5 and 10 mm, so that there are no internal cracks on the strand shell. Advantageously, the thickness increase of the strand format is carried out within the range of a liquid core section with openings of the mouth width setting that can be selected in steps or continuously. The end of the liquid core section is delimited by the bottom of the solidified warm strand.

An embodiment of the method, which is essential to the invention, provides that one segment of the outlet side and the following segment of the inlet side are setpoint-guided at a given adjustment speed and are simultaneously opened by means of position control, the opening speed taking into account permissible strand expansion limit values, the change in the strand volume and the current casting speed, and that Adjustment is reached when the target thickness is reached at the end of the last phase or before reaching the bottom of the sump.

The invention also relates to a device for carrying out the method, wherein all segments of the strand guide are equipped with position-controlled hydraulic cylinders and the top segment has a pivot point or hydraulic cylinder on the input side and the hydraulic cylinders on the outlet side, whereas all other segments with the hydraulic cylinders are equipped on the inlet side and the outlet side. This formation of the strand guide enables a variable increase in the thickness of the thin slab produced using conventional components.

Further details, features and advantages of the invention result from the following explanation of an exemplary embodiment shown schematically in the drawing.

Figure 1 shows a purely schematic representation of the entire strand guide in the casting operation, set to a consistently same production thickness of x mm The strand guide comprises the mold 6, with a grid 5 underneath it. Below the mold 6, at intervals, as seen in the casting direction, a sequence of strand guide segments 1 to 4 with roller pairs 8 arranged at intervals transversely to the cast strand A are provided, which compensate for the ferrostatic Pressure in the liquid core of the casting strand A can be adjusted in relation to one another at a distance determined by the mold geometry. The number 7 denotes a liquid core route.

At A, the entire strand guide in the casting operation is set to a production thickness x mm. The continuous caster has reached normal caster operation. The casting speed is constant, the bottom of the sump lies below segment 2.

At the start of the format thickness increase, at the beginning of phase 1, segment 1 outlet side and segment 2 inlet side are opened simultaneously and guided by setpoint by means of a predetermined manipulated variable speed and position control, forming a bulge 2a. The drive-up speed is determined taking into account the permissible strand expansion limit values, the change in the strand volume and the current casting speed.

After the target position (new segment position for the target format) of segment 1 outlet side and segment 2 inlet side is reached at the end of phase 1, segment 2 outlet side is opened at the beginning of phase 2. The start of phase 2 is controlled according to the current casting parameters via the follow-up system.

Then segment 3 inlet side is opened at the same time and with the same adjustment speed as segment 2 outlet side at the beginning of phase 2.

After the target position (new segment position for the target format) of segment 3 entry side is reached, at the end of phase 2, segment becomes 3 outlet side and segment 4 inlet side opened (start of phase 3). The start takes place according to the current casting parameters via the follow-up system.

After the target position has been reached as the new segment position for the target format of segment 4 inlet side at the end of phase 3, segment 4 outlet side is opened at the beginning of phase 4.

The adjustment is ended with the position end position when the target format of segment 4 is reached, phase 4 is also ended.

The end result is that the entire strand guide A to D ₂ in the casting operation is set to a production thickness which has arisen from the process described above. The thickness of the casting strand is thicker than the exit thickness of the mold 6 by the opening dimension of the strand guide.

The sequence of the segment opening is not limited to the exemplary embodiment described. A variant is format enlargement over 2 or more segments.

Of course it is also possible to close the strand guide during casting.

The process sequence of the adjustment technology for the segments can be carried out by means of position-controlled hydraulic cylinders, which are known per se and are therefore not shown in detail. For this purpose, the uppermost segment 1 has a fulcrum or hydraulic cylinder on its input side and the regulated hydraulic cylinder on its outlet side. All other segments are equipped with the regulated hydraulic cylinders on both the inlet and outlet side. The invention avoids a strict limitation of the production for different format thicknesses and enables a variable increase and decrease in thickness of the thin slabs to be produced without changing the mold geometry. This results in an increase in production when using the same molds and at the same time a correspondingly optimal use of the strand support by changing the format thickness in the casting operation.

Claims

claims

1. Process for the continuous casting of slabs, in particular thin slabs, in a continuous casting installation, comprising a mold

(6) a sequence of strand guide segments (1 - n) with pairs of rollers (8) arranged at intervals transversely to the cast strand (A), which are arranged so as to be able to compensate for the ferrostatic pressure in the liquid core of the cast strand (A) at a certain distance from one another, characterized in that the cast strand (A) is within the range of a liquid core section

(7) with sequential opening of the mouth width setting of successive segments (1 - n) under the effect of the ferrostatic internal pressure of its liquid core bulges (2a - 2n) to increase the format thickness.

2. The method according to claim 1, characterized by - casting a strand (A) with a format thickness corresponding to a segment setting according to the outlet cross-section of the mold (6), successive simultaneous opening of the mouth width adjustment at the outlet of segments and at the inlet of the subsequent segments elements with the formation of a bulge (phase 1).

3. The method according to claim 1 or 2, characterized in that for the increase in format thickness of the strand (A) the ferrostatically induced bulging of the non-solidified hot strand in the

Strand guidance above the swamp tip is used.

4. The method according to one or more of claims 1 to 3, characterized in that a format thickness, measured at the outlet of the last expanded segment, is generated which is greater than the format thickness at the outlet of the mold (6).

5. The method according to one or more of claims 1 to 4, characterized in that the increase in format thickness depending on the steel quality per meter segment length up to 20 mm, preferably between 0.5 to 10 mm.

6. The method according to one or more of claims 1 to 5, characterized in that increases in thickness of the strand format within the range of

Liquid core route with steps or continuously selectable opening of the mouth width setting can be made.

7. The method according to one or more of claims 1 to 6, characterized in that in each case one segment of the outlet side and the following segment of the inlet side are setpoint-guided at a predetermined adjustment speed by means of position control, the opening speed taking into account permissible strand expansion limit values, the change in the strand volume and the current casting speed is determined and the adjustment is ended when the target thickness is reached at the end of phase (4).

8. Device for performing the method according to one of claims 1 to 7, characterized in that that all segments (1 - n) of the strand guide are equipped with position-controlled hydraulic cylinders, segment 1 having a fulcrum or hydraulic cylinder on the inlet side and the hydraulic cylinder on the outlet side and segments 2 to n being equipped with the hydraulic cylinders on the inlet side and outlet side ,