EP1181997A1 - Process and device for continuous casting of steel strip from molten steel - Google Patents

Abstract

Process for continuously casting steel strips from molten steel comprises controlling the flow of the molten steel (10) from a distributor (3) at a speed (Vs) according to its ferrostatic height (H); shaping the partially solidified strip (20) through a gap (22') between the casing (13) of the casting roller (1) and the counter rollers (8'); and reducing the thickness. An Independent claim is also included for a device for continuously casting steel strips from molten steel. Preferred Features: The strip is guided between guiding and antipodal rollers (7, 7') in the horizontal direction behind the gap. The thickness is reduced by 10-50%. The casting rollers and the antipodal rollers are made of a CuNiBe alloy.

Description

The invention relates to a method and a device for continuous Casting steel strip, especially in the thickness range between about 1.0 mm and 6.0 mm of molten steel that is in contact with a movable surface area of the coolable jacket of a casting roll, at least partially Formation of a strand shell solidifies and thereby in the gap between the jacket the casting roll and at least one counter roll a first profile of the belt is preformed.

Methods and devices for continuous casting of comparatively thin Metal strips as well as steel strips are known from the literature.

In the Hartmann documentation, page 174, Fig. 814, the manufacture of Aluminum strips with thicknesses of 0.25 mm or less with a ratio between width and thickness reported at least 500: 1. The device for this comprises a molten pool of aluminum in contact with the surface of an inclined, upwardly movable cooled support for pulling metal out of the Weld pool. The carrier is either an endless belt or a drum.

There is a procedure in another text passage on page 25 of this documentation The Cleveland Graphite Bronze Company for the production of ribbons or strips of metal, in particular alloys with a large solidification range, mentioned. The metal is placed on one another side by side Casters that it has at least partially solidified into metal strip, before it gets into the nip. It was done in this way, tapes good quality to cast from a cadmium-lead bearing alloy.

From another passage in the publication mentioned on page 239 there is a Method and an apparatus for the continuous casting of steel strips are known. Cast iron from a cupola furnace is added to scrap in an electric furnace refined into steel and then in one consisting of two horizontal rolls Shed mold into tapes. The endless belt is wound up, annealed and after unwinding cut into longitudinal strips and rolled them into tubes.

Another method of the company mentioned in the publication mentioned Creusot-Loire provides that molten steel flows into an upstream river Gap between two cooled cylinders under a pressure frame as required of the hydrostatic pressure of the molten metal is injected and the so produced cast tape first along the periphery of one of the cylinders is carried out until it is completely frozen.

Starting from the aforementioned prior art, the object of the invention based, a much improved process for the continuous casting of Band, especially in the thickness range between about 1.0 mm and 6.0 mm Melting steel to indicate which is a particularly economical manufacture of steel strip in a uniform thickness and with a structurally uncomplicated Device is feasible.

To achieve the object, the invention proposes a method of the type characterized in the preamble of claim 1 in accordance with the characterizing features of claim 1, according to which molten steel flows out of a distributor at a speed V _s in accordance with its ferrostatic height H, and this by contact with the surface area of the roller, partially pre-shaped strip is re-formed when passing through at least one of the post-forming gaps, one behind the other in the casting direction, between the shell of the roller and the counter-roller, and in particular thereby reduced thickness when solidified.

Further refinements of the invention are in accordance with the subordinate claims intended.

The method according to the invention enables manufacture with great advantage of steel strip by continuous casting in the thickness range between approximately 1.0 mm and 6 mm directly from the molten steel, reducing production costs for steel strip compared to the production from thicker slabs by means of multi-stage Thickness reduction by rolling mills can be significantly reduced. About that Furthermore, due to the avoidance of segregations, a faultless, high-quality Product achieved.

A preferred embodiment of the method provides that the peripheral speed the coolable roller of the exit velocity of the melt the distributor is adapted.

Furthermore, an embodiment of the method provides that the ferrostatic height H of the melt in the distributor continuously measured and by regulating the Inflow of melt from a ladle through an intermediate container (Tundish) in the distributor is kept constant. This is particularly because of this achieved that to introduce melt from the ladle over the tundish an immersion tube is used in the distributor.

An arrangement has an essential effect on the quality of the cast steel strip the method characterized in that the outflow area of the melt the distributor by feeding inert gas against the entry of atmospheric oxygen is shielded. Reoxidation of the melt in the intermediate distributor (tundish) and distributor is avoided by slag. The inert gas atmosphere is preferred up to a subsequent rolling mill.

An embodiment of the method essential to the invention provides that the roller and / or counter roll (s) and guide rollers by means of cooling bores or cooling grooves be intensively cooled at least inside.

The casting roller can also be sprayed from the outside using water spray is cooled and / or cleaned.

• ein Verteiler für Stahlschmelze mit im Bodenbereich angeordneter Ausgußöffnung,
• Mittel zum dosierbaren Einbringen von Schmelze aus einer Gießpfanne in einen Zwischenverteiler (Tundish) und Mittel zur Regelung des Schmelzflusses aus dem Zwischenverteiler in den Verteiler,
• ein Sensor zur Kontrolle des Höhenspiegels F der Schmelze im Verteiler, im Zusammenwirken mit der Schmelzflußregelung durch ein Tauchrohr in den Verteiler,
• eine kühlbare Walze mit Antrieb für eine Anpassung der Umfangsgeschwindigkeit an die Ausflußgeschwindigkeit der Schmelze aus der Ausgußöffnung des Verteilers,
• Mittel zur Einstellung eines Nachformspaltes zwischen der Walze und wenigstens einer ihrer Gegenwalzen.
• Führungsrollen im Zusammenwirken einerseits mit der Walze, und andererseits mit Gegenrollen.

A device for the continuous casting of steel strip, preferably in the thickness range between approximately 1.0 mm and approximately 6.0 mm, from molten steel, in particular for carrying out the method according to the invention, has the following functional units:

• a distributor for molten steel with a pouring opening arranged in the base area,
• Means for the metered introduction of melt from a ladle into an intermediate distributor (tundish) and means for regulating the melt flow from the intermediate distributor into the distributor,
• a sensor for checking the level F of the melt in the distributor, in cooperation with the melt flow control through an immersion tube in the distributor,
• a coolable roller with drive for adapting the peripheral speed to the outflow speed of the melt from the pouring opening of the distributor,
• Means for setting a post-forming gap between the roller and at least one of its counter-rollers.
• Guide roles in interaction with the roller on the one hand, and with counter rollers on the other.

In a further advantageous embodiment of the device, means are provided for Supplying inert gas to the outflow area of the melt,

In an embodiment of the device it is proposed that the coolable casting roll and counter roll (s) consist of a CuNiBe alloy.

Furthermore, the device provides that the guide rollers with comparatively small diameter can be formed from solid material. These exist preferably made of a CuNiBe alloy, which is in contact with liquid steel has proven to be particularly temperature and wear resistant.

Another advantageous embodiment of the device provides that several Counter rolls are combined in one segment to form a guide unit and can be interacted with adjusting means.

The casting roller, the counter roller and the guide rollers can at least some with leading edges corresponding to the thickness of the cast product Be formed height, or be concave if the steel strip a certain profile increase of z. B. 1% of the strip thickness.

Figur 1

im Schnitt eine Vorrichtung zum kontinuierlichen Gießen von Stahlband aus Stahlschmelze;

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

Figure 1

in section a device for the continuous casting of steel strip from molten steel;

1 schematically shows a preferred embodiment both the process for casting steel strip and the most suitable one Design of a device intended for this purpose.

The device has a ladle 4 containing molten steel 10 with a pouring tube 11 '. In order to dispense the melt 10 in a metered manner, a controllable throttle element 11 ″ is installed in the upper region of the pouring tube 11 ′, which is controlled by a level indicator 17, for example an electronic sensor, in cooperation with an actuator 17 ′. The actuator is also in a regulating connection a drain plug 17 ", which opens further, for example, when the melt level rises, and on the one hand opens the throttle member 11" further when the melt level falls, and occasionally closes the drain plug. In this control process, the level F of the melt in the distributor 3 is also taken into account and strictly From the intermediate distributor 31 (tundish), at a speed V _s melt resulting from the constant ferrostatic melt height, melt flows from the distributor 3 through the pouring opening 5 onto the rotatingly moving surface of the coolable casting roller 1 in a controllable thickness of between approximately 0 to 6.0 mm and is conveyed further at an angle α at the speed V _w on the path 13 ', spontaneously in contact with the cooled surface of the jacket 13 of the roller 1 to form a solidifying belt 20 in the direction of the rotating surface is transported further. The band 20, which has not yet completely solidified, reaches the forming gap 22 between the roll 1 and the counter roll 8, is preformed and, if necessary, is reduced in thickness and compressed as it passes through it. After a short further transport to the postforming gap 22 'between roll 1 and counter roll 8', the steel strip is reduced in thickness as it passes through it. Thereafter, the belt 20 passes between the guide rollers 7, 7 'during further transport and is deflected by them from the vertical direction into the horizontal conveying direction.

The reduction in thickness in the first mold gap 22 can be between 5% and 20% of the Casting thickness, and set in the second post-forming gap 22 'between 10 and 50% become.

In order to achieve a particularly thermally conductive contact between the steel strip and the cooled surface of the roller 1, use can be made of the measure that the peripheral speed V _{G of} the drivable counter roller 8, 8 'by a small amount, in particular by 0.5% to 1.5% is set higher than the peripheral speed V _{w of} the roller 1.

The coolable casting roller 1 should preferably consist of a CuNiBe alloy. This alloy has been used in the construction due to the good thermal conductivity and wear resistance well proven.

The casting roller 1 is internally cooled via cooling bores or cooling grooves.

The guide rollers 7, 7 'can have a comparatively small diameter and Advantage be made of solid material. They preferably also exist made of a CuNiBe alloy. However, they can also have a steel jacket and be chilled inside.

In this case, several counter-rollers 8 with a segment can each form a guide unit summarized and designed to interact with adjusting means his.

The formation of the device or system for the continuous casting of Steel strip, particularly in the thickness range between approximately 1.0 mm and approximately 6.0 mm, made of molten steel, is only to be taken as an example. Variations of the System according to Figure 1 and the casting roll 1 with water coolants, in particular Water spray jets from a spray tube are included in the invention.

LIST OF REFERENCE NUMBERS

1.

casting roll

Third

distributor

4th

ladle

5th

outlet

7, 7 '.

guide rollers

8, 8 '.

counter rolls

10th

melt

11th

dip tube

13th

Mantle of the casting roll

13 '.

surface area

17th

sensor

20th

steel strip

22nd

forming gap

22 '.

Nachformspalt

31st

Tundish

Claims (21)

Process for the continuous casting of steel strip, in particular in the thickness range between approximately 1.0 and 6.0 mm, from molten steel, which in contact with a movable surface area (13 ') of the coolable jacket (13) of a casting roll (1) at least partially a strand shell solidifies and a first profile of the strip (20) is preformed in the gap (22) between the jacket (13) of the casting roll (1) and at least one counter roll (8),
characterized in that molten steel (10) flows out of a distributor (3) in a controlled manner at the speed (V _s ) in accordance with its ferrostatic height (H), and that partially solidifies by contact with the surface area (13 ') of the casting roll (1), preformed strip (20) is re-formed when passing through at least one of the post-forming nips (22 ') one behind the other in the casting direction between the jacket (13) of the casting roll (1) and counter-rolls (8') and in particular is reduced in thickness when solidified. Method according to claim 1,
characterized in that the band (20) is guided in the horizontal direction behind the post-forming gap (22 ') between guide and antipode rollers (7, 7'). The method of claim 1 or 2,
characterized in that the thickness reduction in a first post-forming gap (22 ') is set between 5% and 20%. The method of claim 1 or 2,
characterized in that the thickness reduction in a second post-forming gap (22 ') is set between 10% and 50%. Method according to one or more of claims 1 to 4,
characterized in that the peripheral speed (V _w ) of the casting roll (1) is adapted to the exit speed (V _s ) of the melt (10). Method according to one or more of claims 1 to 5,
characterized in that the peripheral speed (V _G ) of the drivable counter-rollers (8, 8 ') is set by a small amount, for example by 0.5% to 1.5%, higher than the peripheral speed (V _w ) of the casting roller ( 1). Method according to one or more of claims 1 to 6,
characterized in that the counter rolls (8, 8 ') are cooled. Method according to one or more of claims 1 to 7,
characterized in that the ferrostatic height (H) of the melt (10) in the distributor (3) is measured continuously and by regulating the inflow of melt from a ladle (4) and an intermediate distributor (31) (tundish) into the distributor (3) is kept constant. A method according to claim 8,
characterized in that a dip tube (11) is used to introduce melt (10) from the tundish (31) into the distributor (3). Method according to one or more of claims 1 to 9,
characterized in that the outflow rate from the distributor (3) is adjusted via a controllable negative pressure. Method according to one or more of claims 1 to 10,
characterized in that the outflow area of the melt (10) from the distributor (3) is shielded from the entry of atmospheric oxygen by the application of inert gas and reoxidation of the melt in the intermediate distributor (31) and distributor (3) is avoided by slag and preferably the Inert gas atmosphere is maintained up to a subsequent rolling mill. Method according to one or more of claims 1 to 11,
characterized in that the roller (1) and / or the counter-rollers (8, 8 ') are cooled intensively at least on the inside via cooling bores or cooling grooves. Method according to one or more of claims 1 to 12,
characterized in that the casting roller (1) is additionally cooled and / or cleaned from the outside by means of water spray jets or the like. Method according to one or more of claims 1 to 13,
characterized in that the guide rollers (7, 7 ') are cooled from the inside. Method according to one or more of claims 1 to 14,
characterized in that it is carried out in a working range between approximately 1100 ° C and 1400 ° C. Device for the continuous casting of steel strip (20), in particular in the thickness range between approximately 1.0 mm and approximately 6.0 mm, from molten steel, which in contact with a movable surface area (13 ') of the coolable jacket (13) of a casting roll ( 1), at least partially solidified with the formation of a strand shell and a gap (22) is provided between the jacket (13) of the casting roller (1) and at least one counter roller (8) for the purpose of deforming a first strip profile, in particular for carrying out the method according to Claims 1 to 15,
marked by,
the following functional units: a distributor (3) with a pouring opening (5) in the bottom area, Means (11 ', 11 ") for the meterable introduction of melt (10) into an intermediate distributor (31) (Tundish) and means (17') for regulating the flow of melt (10) from the intermediate distributor (31) into the distributor ( 3) a sensor (17) for checking the level (F) of the melt (10) in the distributor (3), in cooperation with the inflow control (11 ") of the melt through the dip tube (11 ') into the distributor (3), a coolable casting roll (1) with a drive for adapting the peripheral speed (V _w ) to the outflow speed (V _s ) of the melt (10) from the pouring opening (5) of the distributor (3), Means for setting at least one postforming gap (21) between the casting roll (1) and at least one of its counter rolls (8, 8 '). Guide rollers (7, 7 ') in cooperation with the casting roll (1) on the one hand, and with the counter rolls (8, 8') on the other hand. Device according to claim 16,
characterized in that the coolable casting roll (1) and / or counter roll (s) (8, 8 ') consist of a CuNiBe alloy. Device according to one or more of claims 16 or 17,
characterized in that the guide rollers (7, 7 ') with a comparatively small diameter are preferably made of solid material. Device according to claim 18,
characterized in that the guide rollers (7, 7 ') consist of a CuNiBe alloy. Device according to one or more of claims 16 to 19,
characterized in that several counter-rollers (8, 8 ') are combined in one segment to form a guide unit and can be interacted with adjusting means. Device according to at least one of claims 16 to 20,
characterized in that it is enclosed at least from the pouring opening (5) of the distributor (3) to a subsequent rolling mill with a housing to prevent the entry of oxygen and this preferably has means for supplying inert gas.

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