EP1291099A2 - Verfahren und Vorrichtung zur Optimierung der Qualität von Gussträngen mit runden oder annähernd runden Querschnitten - Google Patents

Abstract

The invention relates to a method and a device for optimizing the quality of casting strands (1) which can be cast continuously in at least one casting machine with a mold (2) with round or approximately round cross sections or cross sectional areas, in the area of soft reduction (residual solidification). For this purpose, the casting strands (1) below the mold (2) are deformed in the area of residual solidification in at least one reduction level by adjustable rollers (4, 5) to improve the internal quality. In a further step, the round or approximately round casting cross section can be deformed by rollers (4, 5) that can be adjusted on both sides and are offset by 90 ° to the reduction level by an amount between 5 and 60% of the main reduction in the area of residual solidification (8) in order to improve the internal quality by increasing core compaction.

Description

The invention relates to a method for optimizing the quality of at least a casting machine with mold continuous castings with round or approximately round cross-sections or cross-sectional areas in the area of soft reduction (Residual solidification). The invention also relates to a device for Execution of the procedure.

The reduction in the thickness of cast strands known as soft reduction is known below the casting mold in continuous casting plants. The strand is usually used with one or more rolls or roll segments reduced in thickness, in order to improve the internal quality of the casting strand, i.e. Reduce nuclear segregation and core porosity inside the strand. This procedure requires in the case of rectangular continuous casting cross sections as a result the strand elongation a comparatively large decrease in thickness to the desired To improve the internal quality of the casting strand. For this is, however, a high effort and a correspondingly large mechanical engineering Effort required.

A significant improvement is achieved by profiling the continuous casting cross section reached on one or two sides. Through such profiling, the desired reduction in core segregation is comparatively less expensive and enables core porosity.

But since the markets and the manufacturing industry increasingly for manufacturing Round continuous casting cross sections of rotationally symmetrical components are required wins the improvement of the quality of casting strands with round or the like Cross-section increasingly important.

The document WO 00/37 200 describes a process for the production of continuous cast billets in a vertical continuous caster with horizontal Outlet, followed by at least one descaling device and several Rolling mills. The one in the vertical continuous caster with horizontal The billets produced in the outlet show differences in the solidified state Material concentration across the cross section. It is reported that almost All steels have porous spots below the surface and in the core area. Free-cutting steels are particularly affected. Show carbon-manganese steels Segments in the core area, which include the production of e.g. high strength Complicate wires. High-carbon chrome steels form Lint in the core area, which, for example, the quality of the inner surfaces greatly deteriorate from pickled pipes of high precision.

Chromium-nickel steels have one depending on their chemical composition Part of the high proportion of delta ferrite as a second fiber, which is used for round billets pronounced maximum at a distance of 0.4 to 0.7 x radius from the core and the formability of these steels in subsequent cross rolling processes greatly reduced, since the main forming zone is located in this cross-sectional area. As a result, only low degrees of stretching can be achieved. From a medium one Delta ferrite content of around 4% gives rise to general problems of formability for example in the form of cracks.

To improve the surface quality of castings in continuous casting plants Metal strands it is known for example from DE 41 23 956 C2, according to Pour, as close as possible to the mold outlet and before the strand with Splashes of water come into contact with slag, scale and remove such foreign substances.

There are various ways of reducing material inhomogeneities known. One possibility is to reduce the overheating temperature. The disadvantage here is the risk of freezing the melt in the distributor of Casting plant.

Another possibility arises from electromagnetic stirring of the solidifying Melt in the strand with the advantage of breaking off the stem crystals, their mixing and the resulting fine-globular solidification structure in a comparatively large inner area of the strand cross section. The stationary arrangement of required electromagnets is disadvantageous. This leads to considerable difficulties for reasons of space. Farther excessive stirring can also lead to unwanted white tapes.

The described prior art has the overall disadvantage that the Possibilities for influencing different material concentrations over the billet cross-section of those cast in the vertical continuous caster Bludgeons are restricted.

Starting from the aforementioned prior art, the object of the invention based on specifying a method and a device by which the quality of continuous castings with round or approximately round cross-section or cross-sectional areas with technically uncomplicated and to optimize economically favorable means.

To solve the problem is in a method in the preamble of claim 1 mentioned type with the invention that the cast strands below the mold in the residual solidification area in at least one reduction plane Deformed by adjustable castors to improve the internal quality become. As a result of the reducing deformation of the round cross sections the risk of nuclear segregation is reduced and the core porosity in the cast Strand is reduced. It will be an advantageous compression of the material reached in the core zone of the casting strand and thus the desired improvement the interior quality achieved.

An embodiment of the method provides that round, in particular comparative large strand cross-sections, or strand cross-sectional areas for Avoidance of structural cracks or uncontrolled deformation of the strand this, thanks to rollers that can be adjusted on both sides and offset by approximately 90 ° to the reduction level is supported. These support rollers can also be a minor at the same time Take over forming without increasing the susceptibility to cracking.

A further embodiment of the method according to the invention provides that the round or nearly round pouring cross-section through adjustable on both sides, um Rollers offset by 90 ° to the reduction plane in the area of residual solidification Amount between 5 and 60% of the main reduction is deformed. This will a further core compression in the soft reduction section and thus a considerable one Quality improvement of the inner cross section of the cast strand reached before this is formed into the final cross section in rolling stands.

According to a further embodiment of the method, it is particularly advantageously provided that that the position of the sump tip in the cast strand depends on the steel quality, Melt temperature, casting speed, casting powder and amount of water spray is calculated and the position of the roles is adjusted accordingly.

A device is also used to carry out the method according to the invention proposed to optimize the quality of in at least one casting machine continuous casting with continuous or approximate with continuous mold round cross-section or cross-sectional areas in the area of residual solidification provides adjustable roles that with an approximately cylindrical or to the Rounding of the casting formats are adapted profiling, the Profile radius is at least 1.5 times the largest casting format radius. With this device is the uncomplicated and economically beneficial way Improvement of the internal quality of the cast round cross-sections achieved.

An embodiment of the device is further characterized in that in the case of round or approximately round, in particular comparatively large Strand cross-sections or cross-sectional areas to avoid structural cracks or uncontrolled deformations of the casting strand, this, in the area the residual solidification can be adjusted on both sides and is offset by approx. 90 ° to the reduction level Roles. This device can be used for the first time Circular cross-sections or similar cross-sections, free of nuclear segregation and Core porosities are created, reducing the internal quality of the cast Strands is optimized.

Further details, features and advantages of the invention result from the the following explanation of a schematically shown in the drawing Embodiment.

Figure 1 shows a side view of a circular continuous caster with horizontal Spout for an endless cast steel casting 1 with a round or approximately round cross-section or cross-sectional areas. The continuous casting plant comprises the mold 2 with guide rollers arranged below its outlet 3, 3 'comparatively small diameter.

First, the cast strand 1 already forms in the mold 2 from solidifying at the edge Melt. The strand with liquid core emerging from the mold becomes targeted cooling in the secondary cooling section, which means that the continuous shell is continuously grows and becomes a solid core. The strand becomes in the area of residual solidification with the help of adjustable rollers 4, 5 in at least one reduction level reduced and deformed in cross-section. By the deformation of the strand in the area of residual solidification, nuclear segregation and core porosity are reduced.

To round the cast strand with round or approximately round, especially comparatively large strand cross-sections, or strand cross-sectional areas, structural cracks or to avoid uncontrolled deformations of strand 1 the casting strand 1 can be adjusted on both sides by approximately 90 ° to the reduction level Rollers 4, 5 supported and guided and possibly slightly deformed.

In the area of the residual solidification 8, the round or approximately round casting cross-section thanks to rollers that can be adjusted on both sides and offset by 90 ° to the reduction level deformed by an amount between 5 and 60% of the main reduction, which the further core compression and thus increase the internal quality of the cast strand serves.

The position of the sump tip 5 in the area of the residual solidification 8 can be seen in FIG. 1, which according to the steel quality, the melting temperature, the Casting speed, the lubricant and / or the amount of spray water can be calculated and is adjustable, the employment of the rollers 4, 5 accordingly is adjusted.

2 shows a strand cross section in a reduction plane. In vertical Direction, the strand is through the rollers 4 and in a horizontal plane the rollers 5 deformed. The rollers can be cylindrical and / or profiled become.

Claims (6)

Method for optimizing the quality of castings (1) with round or approximately round cross-sections or cross-sectional areas in the area of soft reduction (residual solidification) in at least one casting machine with a mold (2) and endlessly castable casting strands (1)
characterized in that the casting strands (1) below the mold (2) in the residual solidification area are deformed in at least one reduction plane by adjustable rollers (4, 5) to improve the internal quality. Method according to claim 1,
characterized in that, in the case of round or approximately round, in particular comparatively large, strand cross sections or strand cross-sectional areas, in order to avoid structural cracks or uncontrolled deformations of the strand (1), this can be achieved by rollers which can be adjusted on both sides and are offset by approximately 90 ° to the reduction plane (4 , 5), is supported. Method according to one of claims 1 or 2,
characterized in that the round or approximately round casting cross-section is deformed by rollers (4, 5) that can be adjusted on both sides and are offset by 90 ° to the reduction plane, by an amount between 5 and 60% of the main reduction in the area of residual solidification (8). Method according to one or more of claims 1 to 3,
characterized in that the position of the sump tip (6) in the casting strand is calculated in accordance with the steel quality, melt temperature, casting speed, casting powder and / or amount of water spray and the position of the rollers (4, 5) is adapted accordingly. Device for optimizing the quality of casting strands (1) continuously cast in at least one casting machine with mold (2) with round or approximately round cross sections or cross-sectional areas in the area of soft reduction (residual solidification), in particular for carrying out the method according to the invention,
characterized in that adjustable rollers (4, 5,) are designed with approximately cylindrical profiles or profiles adapted to the curves of the casting formats, the profile radius being at least 1.5 times the largest casting format radius. Device according to claim 5,
characterized in that in the case of round or approximately round, in particular comparatively large, strand cross sections or strand cross-sectional areas, in order to avoid structural cracks or uncontrolled deformations of the casting strand (1), in the area of residual solidification (8), these rollers can be adjusted on both sides and offset by 90 ° to the reduction plane ( 4, 5) are assigned.

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