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EP1330556B1 - Method for producing a magnesium hot strip - Google Patents

Method for producing a magnesium hot strip Download PDF

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Publication number
EP1330556B1
EP1330556B1 EP01978446A EP01978446A EP1330556B1 EP 1330556 B1 EP1330556 B1 EP 1330556B1 EP 01978446 A EP01978446 A EP 01978446A EP 01978446 A EP01978446 A EP 01978446A EP 1330556 B1 EP1330556 B1 EP 1330556B1
Authority
EP
European Patent Office
Prior art keywords
hot
rolling
strip
magnesium
thickness
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP01978446A
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German (de)
French (fr)
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EP1330556A1 (en
Inventor
Hans Pircher
Rudolf Kawalla
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ThyssenKrupp Steel Europe AG
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ThyssenKrupp Stahl AG
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Publication of EP1330556A1 publication Critical patent/EP1330556A1/en
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22FCHANGING THE PHYSICAL STRUCTURE OF NON-FERROUS METALS AND NON-FERROUS ALLOYS
    • C22F1/00Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working
    • C22F1/06Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of magnesium or alloys based thereon
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B1/00Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations
    • B21B1/46Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling metal immediately subsequent to continuous casting
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B3/00Rolling materials of special alloys so far as the composition of the alloy requires or permits special rolling methods or sequences ; Rolling of aluminium, copper, zinc or other non-ferrous metals
    • B21B3/003Rolling non-ferrous metals immediately subsequent to continuous casting, i.e. in-line rolling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B1/00Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations
    • B21B1/22Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling plates, strips, bands or sheets of indefinite length
    • B21B1/30Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling plates, strips, bands or sheets of indefinite length in a non-continuous process
    • B21B1/32Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling plates, strips, bands or sheets of indefinite length in a non-continuous process in reversing single stand mills, e.g. with intermediate storage reels for accumulating work
    • B21B1/34Metal-rolling methods or mills for making semi-finished products of solid or profiled cross-section; Sequence of operations in milling trains; Layout of rolling-mill plant, e.g. grouping of stands; Succession of passes or of sectional pass alternations for rolling plates, strips, bands or sheets of indefinite length in a non-continuous process in reversing single stand mills, e.g. with intermediate storage reels for accumulating work by hot-rolling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B3/00Rolling materials of special alloys so far as the composition of the alloy requires or permits special rolling methods or sequences ; Rolling of aluminium, copper, zinc or other non-ferrous metals
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B39/00Arrangements for moving, supporting, or positioning work, or controlling its movement, combined with or arranged in, or specially adapted for use in connection with, metal-rolling mills
    • B21B39/02Feeding or supporting work; Braking or tensioning arrangements, e.g. threading arrangements
    • B21B39/12Arrangement or installation of roller tables in relation to a roll stand
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B45/00Devices for surface or other treatment of work, specially combined with or arranged in, or specially adapted for use in connection with, metal-rolling mills
    • B21B45/004Heating the product

Definitions

  • the invention relates to a method for generating Hot strip made from wrought magnesium alloys.
  • Magnesium is that Metal with the lowest density Strength properties similar to aluminum and could substitute this as a lightweight material.
  • a basic problem hot rolling of wrought magnesium alloy sheets consists in that the common starting material Block or continuous casting solidified coarse-grained and porous, also strong segregations and coarse excretions contains.
  • the cast blocks often become one Subjected to homogenization annealing and then at Temperatures between approx. Hot rolled at 200 and 450 ° C. These requirements usually require a number of repetitions Intermediate heating of the rolling stock, otherwise failures as a result Cracks develop.
  • a disadvantage of the known method is that for the production of the primary material Magnesium powder creates this powder that compresses and that then accelerated cooling must be carried out. The associated apparatus and personnel expenditure leads to high manufacturing costs. It also shows that the forming of the primary material in In the course of hot rolling despite the complex production of Is difficult to master.
  • JP 06293944 A a method for producing a Magnesium sheet known, in which initially from a 0.5 -1.5% SEM, 0.1 - 0.6% zircon, 2.0 - 4.0% zinc and as Remaining magnesium-containing melt poured a slab becomes. This slab is then made in two stages hot rolled, being in the second stage of hot rolling the rolling temperatures between 180 - 230 ° C, preferably 180 - 200 ° C and a total deformation of 40-70%, preferably 40-60% is reached. That so tape obtained should have good ductility.
  • the two-stage hot rolling does however also the rolling process and the one to be observed Temperature control is complex and difficult to control.
  • the invention was based on the object Specify the procedure with which reduced Manufacturing cost magnesium sheets with improved Let formability be created.
  • this object is achieved by a method solved to create a magnesium hot strip, in which a melt from a magnesium alloy continuously to a supporting strip with a thickness of is cast at most 50 mm and in which the cast Supporting tape directly from the pouring heat at one Hot rolling start temperature of at least 250 ° C and at most 500 ° C to a hot strip with a final thickness of is hot rolled at most 4 mm, whereby in the first Rolling of hot rolling a reduction in thickness of at least 15% is achieved.
  • a supporting strip with a thickness of cast up to 50 mm which due to its low Thickness cools down quickly and as a result an improved, has fine-grained and low-pore structure. Micro and Macro segregations are to a minimum in this state reduced.
  • the so achieved particularly fine-grained structure favors formability during the subsequent hot rolling by the softening that is favorable for further forming facilitated.
  • the training of one is also supported fine structure through the first hot rolling pass achieved thickness reduction of at least 15%.
  • Another advantage of the applied according to the invention continuous casting from pre-strips Magnesium material with subsequent, from the casting heat Rolling takes place is that the previously at Manufacture of magnesium sheets to be accepted Proportion of scrap is significantly reduced.
  • a suitable remelting and casting technique results in addition, extensive procurement independence of the starting material.
  • the Energy requirement in the applied according to the invention Casting rolling technology minimized and great flexibility with regard to the spectrum of the products produced guaranteed.
  • the invention can be particularly economical Carry out the process by directly opening the supporting strip the casting heat is hot rolled out. Depending on the Properties of the processed alloy and the equipment conditions, it can also be favorable Rolling temperature of the preliminary strip in the course of a before Hot rolling performed temperature compensation adjust. Through this temperature compensation a uniform temperature distribution in the opening and a additional structural homogenization achieved.
  • Oxidation of the belt surface and the formation of unwanted oxides in the structure can surely be avoided that the casting of the melt in one suitably trained solidification device under Shielding gas is carried out.
  • the microstructure can be further favored if the reduction in thickness in the first pass of hot rolling is at least 20%.
  • the deformability of the strip during hot rolling ensure the hot rolling start temperature be at least 250 ° C.
  • hot magnesium band can be in produce the inventive method even if hot rolling is reversed in several passes.
  • Hot rolling Bridge downtime during which one continuous continuation of the rolling process is not is possible, it is favorable if the hot strip at least after the first stitch on a warm reel coiled and at the respective forming temperature is held.
  • the forming temperature at which the hot strip is on the reel is preferably included at least 300 ° C.
  • the deformation properties and the desired thickness of the finished rolled strip should be the total degree of forming achieved during hot rolling at least 60% be.
  • the process according to the invention can preferably be carried out under Use a wrought magnesium alloy that up to 10% aluminum, up to 10% lithium, up to 2% Contains zinc and up to 2% manganese.
  • a wrought magnesium alloy that up to 10% aluminum, up to 10% lithium, up to 2% Contains zinc and up to 2% manganese.
  • zirconium or Contribute cerium in contents of up to 1% each.
  • the casting and rolling system 1 comprises in the conveying direction F arranged one behind the other a melting furnace 2 Solidification device 3, a first driver device 4, scissors 5, a second driver device 6, one Homogenization furnace 7, a first coiler 8, a third driver 9, a reversing roll stand 10, a fourth driver 11, a fourth reel device 12 and a roller table 13.
  • the reel device 12 and the roller table 13 are on a platform 14 set up transversely to Conveying direction F can be moved in such a way that in a first operating position the reel device 12 and in a second operating position of the roller table 13 at the end of the conveyor path 15 one generated in the casting and rolling mill 1 Magnesium tape is arranged.
  • the homogenization furnace 7 and the coiler 8 arranged on a platform 16, so that one of these facilities in a first operating position next to conveyor 15 and in a second Operating position in the conveyor path of the to be generated Magnesium tape is arranged.
  • the reel devices 8 and 12 are not with here heaters shown equipped via the each on the reels, also not shown wound strip at the respective forming temperature can be held until the next rolling pass is carried out.
  • a melt is continuously cast under a protective gas atmosphere with the exclusion of oxygen to form a preliminary strip.
  • Typical alloys of this melt are given in Table 1 below:
  • HP has proven to be particularly advantageous (high purity) - Magnesium alloys proven.
  • alloys contain less than 10 ppm Ni, less than 40 ppm Fe and less than 150 ppm Cu.
  • solidified supporting tape is scooped using scissors 5 and by the drivers 4 and 6 on the conveyor path 15 through the Homogenization furnace 7 promoted.
  • Temperature compensation instead, in the course of which one evenly distributed over the cross-section of the supporting strip Rolling temperature is set, which is in the range from 250 - 500 ° C.
  • the supporting strip tempered in this way then reaches the Driver 9 promoted in the reversing stand 10 and undergoes a first hot rolling pass there.
  • the the thickness reduction achieved is at least 15%.
  • the hot strip leaving the rolling stand is removed from the Coiler device 12 coiled and in the for next forming stitch optimal forming temperature.
  • the platform 16 brought into the operating position in which the Reel device 8 is in the conveyor path 15. Subsequently the hot strip is cut to its final thickness in several passes rolled of less than 4 mm, being each alternately through the reel devices 8 and 12 wound up and at the respective forming temperature is held. The latter is above 250 ° C.
  • the platform 14 Before the last rolling pass, the platform 14 in moves the operating position in which the Roller table 13 is arranged at the end of the conveyor path 15.
  • the reversing roll stand 10 after the last stitch leaving, completely rolled magnesium hot strip is over the roller table 13 fed to further processing.
  • Typical properties of the magnesium hot strips produced in the manner described in the casting and rolling mill 1 from the alloys listed in Table 1 at room temperature are given in Table 2.
  • the sheet thickness was between 1.2 and 1.5 mm.
  • the tapes produced according to the invention a fine structure and, due to this, a have excellent ductility. So is found that the properties Sheets produced according to the invention by at least 20% are better than the respective properties conventionally produced sheets.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Organic Chemistry (AREA)
  • Materials Engineering (AREA)
  • Thermal Sciences (AREA)
  • Metallurgy (AREA)
  • Physics & Mathematics (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Metal Rolling (AREA)
  • Heat Treatment Of Strip Materials And Filament Materials (AREA)
  • Transition And Organic Metals Composition Catalysts For Addition Polymerization (AREA)
  • Polishing Bodies And Polishing Tools (AREA)
  • Inorganic Compounds Of Heavy Metals (AREA)
  • Compounds Of Alkaline-Earth Elements, Aluminum Or Rare-Earth Metals (AREA)
  • Winding, Rewinding, Material Storage Devices (AREA)
  • Inorganic Insulating Materials (AREA)
  • Powder Metallurgy (AREA)
  • Compositions Of Oxide Ceramics (AREA)

Abstract

The invention relates to a method for producing a magnesium hot strip, in which a melt from a magnesium alloy is continuously cast to form a roughed strip with a thickness of maximum 50 mm, and in which the cast roughed strip is hot-rolled directly from the cast heat at a hot-rolling initial temperature of at least 250° C. and maximum 500° C. to form a hot strip with a final thickness of maximum 4 mm, whereby in the first hot-rolling pass a reduction in the thickness of at least 15% is achieved. With the method according to the invention, magnesium sheets with improved deformability can be produced with reduced manufacturing effort and expenditure.

Description

Die Erfindung betrifft ein Verfahren zur Erzeugung von Warmband aus Magnesium-Knetlegierungen. Magnesium ist das Metall mit der geringsten Dichte, hat Festigkeitseigenschaften ähnlich dem Aluminium und könnte dieses als Leichtbauwerkstoff substituieren. Eine wesentliche Voraussetzung für ein Vordringen von Magnesium als Leichtbauwerkstoff ist allerdings die Verfügbarkeit kostengünstiger Blechwerkstoffe. Magnesium-Bleche sind derzeit nur in geringen Mengen und zu hohen Preisen auf dem Markt. Dies erklärt sich aus dem großen Aufwand, der beim Warmwalzen von Blechen oder Band aus Magnesium-Knetlegierungen nach dem aktuellen Stand der Technik aufzubringen ist. Dieser wird ausführlich im Magnesium Taschenbuch (Aluminium-Verlag Düsseldorf, 2000, 1. Aufl., S. 425 bis 429). beschrieben. Ein Grundproblem beim Warmwalzen von Blechen aus Mg-Knetlegierungen besteht darin, daß das gängige Ausgangsmaterial aus Block- bzw. Strangguß grobkörnig und porös erstarrt, zudem starke Seigerungen und grobe Ausscheidungen enthält. Die Gußblöcke werden vielfach einer Homogenisierungsglühung unterworfen und dann bei Temperaturen zwischen rd. 200 und 450 °C warmgewalzt. Diese Vorgaben erfordern meist ein zum Teil mehrmaliges Zwischenwärmen des Walzgutes, weil sonst Ausfälle infolge Rißbildung entstehen. The invention relates to a method for generating Hot strip made from wrought magnesium alloys. Magnesium is that Metal with the lowest density Strength properties similar to aluminum and could substitute this as a lightweight material. A essential prerequisite for the advance of Magnesium, however, is the lightweight material Availability of inexpensive sheet materials. Magnesium sheets are currently only in small quantities and too high Prices in the market. This can be explained from the big one Effort that comes from hot rolling sheet or strip Wrought magnesium alloys according to the current state of the Technology has to be applied. This is detailed in Magnesium paperback (Aluminum-Verlag Düsseldorf, 2000, 1st ed., Pp. 425 to 429). described. A basic problem hot rolling of wrought magnesium alloy sheets consists in that the common starting material Block or continuous casting solidified coarse-grained and porous, also strong segregations and coarse excretions contains. The cast blocks often become one Subjected to homogenization annealing and then at Temperatures between approx. Hot rolled at 200 and 450 ° C. These requirements usually require a number of repetitions Intermediate heating of the rolling stock, otherwise failures as a result Cracks develop.

Es ist versucht worden, die Verformbarkeit und die Eigenschaften eines warmgewalzten Magnesium-Blechs durch Erzeugung geeigneter Vormaterialien zu verbessern, aus denen anschließend das Warmband gewalzt wird. Ein solches Verfahren ist beispielsweise aus der US 5,316,598 bekannt. Gemäß dem bekannten Verfahren läßt man ein bei Temperaturen von 150 - 275 °C verpreßtes Magnesium-Pulver schnell erstarren. Durch Extrudieren oder Schmieden wird aus diesem Block ein Vormaterial erzeugt, welches anschließend zu einem Blech mit einer Dicke von mindestens 0,5 mm gewalzt. Die Walztemperaturen liegen dabei zwischen 200 °C und 300 °C. Das so erhaltene Magnesium-Warmband weist superplastische Eigenschaften auf und besitzt bei Raumtemperatur eine hohe Festigkeit und gute Zähigkeit in Walzrichtung.It has been tried the deformability and the Properties of a hot-rolled magnesium sheet To improve the production of suitable materials which the hot strip is then rolled. Such one The method is for example from US 5,316,598 known. According to the known method, one lets Temperatures of 150 - 275 ° C pressed magnesium powder freeze quickly. By extrusion or forging from this block a primary material is generated, which then to a sheet with a thickness of rolled at least 0.5 mm. The rolling temperatures are between 200 ° C and 300 ° C. The so obtained Magnesium hot strip has superplastic properties and has high strength at room temperature and good toughness in the rolling direction.

Nachteilig an dem bekannten Verfahren ist jedoch, daß für die Herstellung des Vormaterials zunächst ein Magnesiumpulver erzeugt, daß dieses Pulver verpreßt und daß anschließend eine beschleunigte Abkühlung durchgeführt werden muß. Der damit verbundene apparative und personelle Aufwand führt zu hohen Herstellkosten. Zudem zeigt sich, daß die Umformung des Vormaterials im Zuge des Warmwalzens trotz der aufwendigen Erzeugung des Vormaterials schwierig zu beherrschen ist.A disadvantage of the known method, however, is that for the production of the primary material Magnesium powder creates this powder that compresses and that then accelerated cooling must be carried out. The associated apparatus and personnel expenditure leads to high manufacturing costs. It also shows that the forming of the primary material in In the course of hot rolling despite the complex production of Is difficult to master.

Neben dem voranstehend erläuterten Stand der Technik ist aus der JP 06293944 A ein Verfahren zum Herstellen eines Magnesiumblechs bekannt, bei dem zunächst aus einer 0,5 -1,5 % REM, 0,1 - 0,6 % Zirkon, 2,0 - 4,0 % Zink und als Rest Magnesium enthaltenden Schmelze eine Bramme gegossen wird. Diese Bramme wird anschließend in zwei Stufen warmgewalzt, wobei in der zweiten Stufe des Warmwalzens die Walztemperaturen zwischen 180 - 230 °C, vorzugsweise 180 - 200 °C liegen und eine Gesamtverformung von 40 - 70 %, vorzugsweise 40 - 60 % erreicht wird. Das so erhaltene Band soll eine gute Verformbarkeit besitzen. Das zweistufig erfolgende Warmwalzen macht jedoch ebenfalls den Walzprozeß und die dabei zu beachtende Temperaturführung aufwendig und schwer beherrschbar.In addition to the prior art explained above from JP 06293944 A a method for producing a Magnesium sheet known, in which initially from a 0.5 -1.5% SEM, 0.1 - 0.6% zircon, 2.0 - 4.0% zinc and as Remaining magnesium-containing melt poured a slab becomes. This slab is then made in two stages hot rolled, being in the second stage of hot rolling the rolling temperatures between 180 - 230 ° C, preferably 180 - 200 ° C and a total deformation of 40-70%, preferably 40-60% is reached. That so tape obtained should have good ductility. The two-stage hot rolling does however also the rolling process and the one to be observed Temperature control is complex and difficult to control.

Ausgehend von dem voranstehend erläuterten Stand der Technik lag der Erfindung die Aufgabe zugrunde, ein Verfahren anzugeben, mit dem sich bei vermindertem Herstellungsaufwand Magnesiumbleche mit verbesserter Umformbarkeit erzeugen lassen.Based on the status of the Technology, the invention was based on the object Specify the procedure with which reduced Manufacturing cost magnesium sheets with improved Let formability be created.

Diese Aufgabe wird erfindungsgemäß durch ein Verfahren zum Erzeugen eines Magnesium-Warmbands gelöst, bei dem eine Schmelze aus einer Magnesium-Legierung kontinuierlich zu einem Vorband mit einer Dicke von höchstens 50 mm vergossen wird und bei dem das gegossene Vorband direkt aus der Gießhitze bei einer Warmwalzanfangstemperatur von mindestens 250 °C und höchstens 500 °C zu einem Warmband mit einer Enddicke von höchstens 4 mm warmgewalzt wird, wobei im ersten Walzstich des Warmwalzens eine Dickenreduktion von mindestens 15 % erzielt wird.According to the invention, this object is achieved by a method solved to create a magnesium hot strip, in which a melt from a magnesium alloy continuously to a supporting strip with a thickness of is cast at most 50 mm and in which the cast Supporting tape directly from the pouring heat at one Hot rolling start temperature of at least 250 ° C and at most 500 ° C to a hot strip with a final thickness of is hot rolled at most 4 mm, whereby in the first Rolling of hot rolling a reduction in thickness of at least 15% is achieved.

Gemäß der Erfindung wird ein Vorband mit einer Dicke von bis zu 50 mm gegossen, welches aufgrund seiner geringen Dicke schnell abkühlt und infolgedessen ein verbessertes, feinkörniges und porenarmes Gefüge besitzt. Mikro- und Makroseigerungen sind in diesem Zustand auf ein Minimum reduziert. Auch liegen ggf. vorhandene Primärausscheidungen in feiner, gleichmäßig verteilter Form vor, wodurch die Ausbildung eines feinen Walzgefüges weiter unterstützt wird. Die so erzielte besonders feinkörnige Gefügestruktur begünstigt die Umformbarkeit während des nachfolgend durchlaufenen Warmwalzens, indem sie die für die weitere Umformung günstige Entfestigung erleichtert. Weiter unterstützt wird die Ausbildung eines feinen Gefüges durch die im ersten Warmwalzstich erreichte Dickenreduktion von mindestens 15 %. Durch das schon im Gußzustand vorhandene und im Walzprozeß weiter verfeinerte Gefüge wird im Ergebnis ein Magnesium-Blech erhalten, dessen Gebrauchseigenschaften gegenüber herkömmlich erzeugten Blechen erheblich verbessert ist.According to the invention, a supporting strip with a thickness of cast up to 50 mm, which due to its low Thickness cools down quickly and as a result an improved, has fine-grained and low-pore structure. Micro and Macro segregations are to a minimum in this state reduced. There are also any existing ones Primary excretions in fine, evenly distributed Form before, which causes the formation of a fine rolling structure is further supported. The so achieved particularly fine-grained structure favors formability during the subsequent hot rolling by the softening that is favorable for further forming facilitated. The training of one is also supported fine structure through the first hot rolling pass achieved thickness reduction of at least 15%. By the existing in the as-cast state and further in the rolling process The result is a refined structure that becomes a magnesium sheet received, its performance characteristics compared conventionally produced sheet is significantly improved.

Ein weiterer Vorteil des erfindungsgemäß angewendeten kontinuierlich erfolgenden Gießens von Vorbändern aus Magnesium-Werkstoff mit anschließendem, aus der Gießhitze erfolgenden Walzen besteht darin, daß der bisher beim Herstellen von Magnesium-Blechen in Kauf zu nehmende Schrottanteil erheblich vermindert ist. Durch Verwendung einer geeigneten Umschmelz- und Gießtechnik ergibt sich zudem eine weitgehende Unabhängigkeit bei der Beschaffung des Ausgangsmaterials. Darüber hinaus ist der Energiebedarf bei der erfindungsgemäß angewendeten Gießwalztechnik minimiert und eine große Flexibilität hinsichtlich des Spektrums der erzeugten Produkte gewährleistet.Another advantage of the applied according to the invention continuous casting from pre-strips Magnesium material with subsequent, from the casting heat Rolling takes place is that the previously at Manufacture of magnesium sheets to be accepted Proportion of scrap is significantly reduced. By using a suitable remelting and casting technique results in addition, extensive procurement independence of the starting material. In addition, the Energy requirement in the applied according to the invention Casting rolling technology minimized and great flexibility with regard to the spectrum of the products produced guaranteed.

Besonders wirtschaftlich läßt sich das erfindungsgemäße Verfahren dadurch durchführen, daß das Vorband direkt aus der Gießhitze heraus warmgewalzt wird. Abhängig von den Eigenschaften der verarbeiteten Legierung und den apparativen Gegebenheiten kann es auch günstig sein, die Walzanfangstemperatur des Vorbandes im Zuge eines vor dem Warmwalzen durchgeführten Temperaturausgleichs einzustellen. Durch diesen Temperaturausgleich wird eine gleichmäßige Temperaturverteilung im Vorband und eine zusätzliche Gefügehomogenisierung erreicht.The invention can be particularly economical Carry out the process by directly opening the supporting strip the casting heat is hot rolled out. Depending on the Properties of the processed alloy and the equipment conditions, it can also be favorable Rolling temperature of the preliminary strip in the course of a before Hot rolling performed temperature compensation adjust. Through this temperature compensation a uniform temperature distribution in the opening and a additional structural homogenization achieved.

Eine Oxidation der Bandoberfläche und die Entstehung von unerwünschten Oxiden im Gefüge kann sicher dadurch vermieden werden, daß das Vergießen der Schmelze in einer geeignet ausgebildeten Erstarrungseinrichtung unter Schutzgas erfolgt.Oxidation of the belt surface and the formation of unwanted oxides in the structure can surely be avoided that the casting of the melt in one suitably trained solidification device under Shielding gas is carried out.

Die Gefügeausbildung kann weiter begünstigt werden, wenn die Dickenreduktion im ersten Walzstich des Warmwalzens mindestens 20 % beträgt.The microstructure can be further favored if the reduction in thickness in the first pass of hot rolling is at least 20%.

Um die Verformbarkeit des Bandes während des Warmwalzens sicherzustellen, sollte die Warmwalzanfangstemperatur mindestens 250 °C betragen.The deformability of the strip during hot rolling ensure the hot rolling start temperature be at least 250 ° C.

Die schon beim erfindungsgemäß erzeugten Vorband vorhandene gute Verformbarkeit ermöglicht es, das Warmband nach dem ersten Stich kontinuierlich in mehreren Stichen auf Enddicke fertigzuwalzen. Eine Erwärmung zwischen den einzelnen Walzstichen ist aufgrund der entstehenden Umformwärme nicht erforderlich.Those already produced in the opening act according to the invention existing good ductility makes it possible Hot strip continuously in several after the first stitch Finish rolling the stitches to their final thickness. A warming between the individual rolling passes is due to the forming heat is not required.

Steht eine Walzstraße zum Fertigwalzen des Warmbandes nicht zur Verfügung, so läßt sich Magnesium-Warmband in der erfindungsgemäßen Weise auch dann herstellen, wenn das Warmwalzen in mehreren Stichen reversierend erfolgt.There is a rolling mill for finishing the hot strip not available, so hot magnesium band can be in produce the inventive method even if hot rolling is reversed in several passes.

Besteht beim Warmwalzen die Notwendigkeit, Stillstandzeiten zu überbrücken, in denen eine kontinuierliche Fortsetzung des Walzprozesses nicht möglich ist, so ist es günstig, wenn das Warmband mindestens nach dem ersten Stich auf einem warmen Haspel gehaspelt und auf der jeweiligen Umformtemperatur gehalten wird. Im Fall des revesierend durchgeführten Warmwalzens ist es vorteilhaft, das warmgewalzte Warmband zwischen jedem Walzstich auf einem warmen Haspel zu haspeln und bei der jeweiligen Umformtemperatur zu halten. Die Umformtemperatur, bei der das Warmband auf dem Haspel gehalten wird, liegt vorzugsweise bei mindestens 300 °C.If there is a need for hot rolling, Bridge downtime during which one continuous continuation of the rolling process is not is possible, it is favorable if the hot strip at least after the first stitch on a warm reel coiled and at the respective forming temperature is held. In the case of the returning Hot rolling it is advantageous to use the hot rolled hot strip between each roll pass on a warm reel reel and at the respective forming temperature hold. The forming temperature at which the hot strip is on the reel is preferably included at least 300 ° C.

Im Hinblick auf die Verformungseigenschaften und die gewünschte Dicke des fertig gewalzten Bandes sollte der beim Warmwalzen erzielte Gesamtumformgrad mindestens 60 % betragen.With regard to the deformation properties and the desired thickness of the finished rolled strip should be the total degree of forming achieved during hot rolling at least 60% be.

Das erfindungsgemäße Verfahren läßt sich bevorzugt unter Verwendung einer Magnesium-Knetlegierung durchführen, die bis zu 10 % Aluminium, bis zu 10 % Lithium, bis zu 2 % Zink und bis zu 2 % Mangan enthält. Zur Feinkornbildung im Erstarrungsgefüge kann ein Zulegieren von Zirkon oder Cer in Gehalten von jeweils bis zu 1 % beitragen.The process according to the invention can preferably be carried out under Use a wrought magnesium alloy that up to 10% aluminum, up to 10% lithium, up to 2% Contains zinc and up to 2% manganese. For fine grain formation in the solidification structure an addition of zirconium or Contribute cerium in contents of up to 1% each.

Nachfolgend wird die Erfindung anhand von Ausführungsbeispielen näher erläutert. Die einzige Figur zeigt den schematischen Aufbau einer Gießwalzanlage 1 für Vorbrammendicken bis herunter auf 25 mm in einer Ansicht von oben.The invention is described below with reference to Embodiments explained in more detail. The only figure shows the schematic structure of a casting and rolling system 1 for Pre-slab thicknesses down to 25 mm in one view from above.

Die Gießwalzanlage 1 umfaßt in Förderrichtung F hintereinander angeordnet einen Schmelzofen 2, eine Erstarrungseinrichtung 3, eine erste Treibereinrichtung 4, eine Schere 5, eine zweite Treibereinrichtung 6, einen Homogenisierungsofen 7, eine erste Haspeleinrichtung 8, einen dritten Treiber 9, ein Reversierwalzgerüst 10, einen vierten Treiber 11, eine vierte Haspeleinrichtung 12 und einen Rollgang 13.The casting and rolling system 1 comprises in the conveying direction F arranged one behind the other a melting furnace 2 Solidification device 3, a first driver device 4, scissors 5, a second driver device 6, one Homogenization furnace 7, a first coiler 8, a third driver 9, a reversing roll stand 10, a fourth driver 11, a fourth reel device 12 and a roller table 13.

Die Haspeleinrichtung 12 und der Rollgang 13 sind auf einer Plattform 14 aufgestellt, die quer zur Förderrichtung F derart verfahrbar ist, daß in einer ersten Betriebsstellung die Haspeleinrichtung 12 und in einer zweiten Betriebsstellung der Rollgang 13 am Ende des Förderwegs 15 eines in der Gießwalzanlage 1 erzeugten Magnesiumbandes angeordnet ist. In gleicher Weise sind der Homogenisierungsofen 7 und die Haspeleinrichtung 8 auf einer Plattform 16 angeordnet, so daß jeweils eine dieser Einrichtungen in einer ersten Betriebsstellung neben dem Förderweg 15 und in einer zweiten Betriebsstellung im Förderweg des zu erzeugenden Magnesiumbandes angeordnet ist. Zu Beginn der Erzeugung eines Magnesium-Warmbandes befinden sich der Homogenisierungsofen 7 und der Haspel 12 im Förderweg 15, während der Haspel 8 und der Rollgang 13 neben dem Förderweg 15 angeordnet sind.The reel device 12 and the roller table 13 are on a platform 14 set up transversely to Conveying direction F can be moved in such a way that in a first operating position the reel device 12 and in a second operating position of the roller table 13 at the end of the conveyor path 15 one generated in the casting and rolling mill 1 Magnesium tape is arranged. Are in the same way the homogenization furnace 7 and the coiler 8 arranged on a platform 16, so that one of these facilities in a first operating position next to conveyor 15 and in a second Operating position in the conveyor path of the to be generated Magnesium tape is arranged. At the start of production of a magnesium hot strip are Homogenization furnace 7 and reel 12 in conveyor path 15, while the reel 8 and the roller table 13 next to the Conveyor path 15 are arranged.

Die Haspeleinrichtungen 8 und 12 sind mit hier nicht dargestellten Heizeinrichtungen ausgestattet, über die das auf den ebenfalls nicht gezeigten Haspeln jeweils gewickelte Band auf der jeweiligen Umformtemperatur gehalten werden kann, bis der nächstfolgende Walzstich durchgeführt wird.The reel devices 8 and 12 are not with here heaters shown equipped via the each on the reels, also not shown wound strip at the respective forming temperature can be held until the next rolling pass is carried out.

Innerhalb der Erstarrungseinrichtung 3 wird unter einer Schutzgasatmosphäre eine Schmelze kontinuierlich unter Sauerstoffabschluß zu einem Vorband vergossen. Typische Legierungen dieser Schmelze sind in der nachfolgenden Tabelle 1 angegeben:

Figure 00080001
Within the solidification device 3, a melt is continuously cast under a protective gas atmosphere with the exclusion of oxygen to form a preliminary strip. Typical alloys of this melt are given in Table 1 below:
Figure 00080001

Als besonders vorteilhaft hat sich die Verwendung von HP (high purity) - Magnesiumlegierungen erwiesen. Solche Legierungen enthalten beispielsweise weniger als 10 ppm Ni, weniger als 40 ppm Fe und weniger als 150 ppm Cu.The use of HP has proven to be particularly advantageous (high purity) - Magnesium alloys proven. Such For example, alloys contain less than 10 ppm Ni, less than 40 ppm Fe and less than 150 ppm Cu.

Das aus der Erstarrungseinrichtung 3 austretende, erstarrte Vorband wird mittels der Schere 5 geschopft und von den Treibern 4 und 6 auf dem Förderweg 15 durch den Homogenisierungsofen 7 gefördert. Dort findet ein Temperaturausgleich statt, im Zuge dessen eine gleichmäßig über den Querschnitt des Vorbands verteilte Walzanfangstemperatur eingestellt wird, welche im Bereich von 250 - 500 °C liegt.The emerging from the solidification device 3, solidified supporting tape is scooped using scissors 5 and by the drivers 4 and 6 on the conveyor path 15 through the Homogenization furnace 7 promoted. There takes one Temperature compensation instead, in the course of which one evenly distributed over the cross-section of the supporting strip Rolling temperature is set, which is in the range from 250 - 500 ° C.

Das derart temperierte Vorband gelangt anschließend vom Treiber 9 gefördert in das Reversierwalzgerüst 10 und wird dort einem ersten Warmwalzstich unterzogen. Die dabei erreichte Dickenreduktion beträgt mindestens 15 %. Das das Walzgerüst verlassende Warmband wird von der Haspeleinrichtung 12 gehaspelt und bei der für den nächsten Umformstich optimalen Umformtemperatur gehalten.The supporting strip tempered in this way then reaches the Driver 9 promoted in the reversing stand 10 and undergoes a first hot rolling pass there. The the thickness reduction achieved is at least 15%. The hot strip leaving the rolling stand is removed from the Coiler device 12 coiled and in the for next forming stitch optimal forming temperature.

Nach Abschluß des ersten Walzstichs wird die Plattform 16 in die Betriebsstellung gebracht, in der die Haspeleinrichtung 8 im Förderweg 15 steht. Anschließend wird das Warmband in mehreren Stichen auf seine Enddicke von weniger als 4 mm gewalzt, wobei es jeweils wechselweise durch die Haspeleinrichtungen 8 bzw. 12 aufgewickelt und bei der jeweiligen Umformtemperatur gehalten wird. Letzter liegt dabei jeweils oberhalb von 250 °C.After the first rolling pass has been completed, the platform 16 brought into the operating position in which the Reel device 8 is in the conveyor path 15. Subsequently the hot strip is cut to its final thickness in several passes rolled of less than 4 mm, being each alternately through the reel devices 8 and 12 wound up and at the respective forming temperature is held. The latter is above 250 ° C.

Vor dem letzten Walzstich wird die Plattform 14 in diejenige Betriebsstellung bewegt, in welcher der Rollgang 13 am Ende des Förderweges 15 angeordnet ist. Das nach dem letzten Stich das Reversierwalzgerüst 10 verlassende, fertig gewalzte Magnesium-Warmband wird über den Rollgang 13 der Weiterverarbeitung zugeführt.Before the last rolling pass, the platform 14 in moves the operating position in which the Roller table 13 is arranged at the end of the conveyor path 15. The reversing roll stand 10 after the last stitch leaving, completely rolled magnesium hot strip is over the roller table 13 fed to further processing.

Typische Eigenschaften der in der beschriebenen Weise in der Gießwalzanlage 1 aus den in Tabelle 1 angegebenen Legierungen erzeugten Magnesium-Warmbänder bei Raumtemperatur sind in Tabelle 2 angegeben. Die Blechdicke lag jeweils zwischen 1,2 und 1,5 mm.

Figure 00090001
Typical properties of the magnesium hot strips produced in the manner described in the casting and rolling mill 1 from the alloys listed in Table 1 at room temperature are given in Table 2. The sheet thickness was between 1.2 and 1.5 mm.
Figure 00090001

Es zeigt sich, daß die erfindungsgemäß erzeugten Bänder eine feine Gefügestruktur und, dadurch bedingt, eine hervorragende Verformbarkeit besitzen. So ist festgestellt worden, daß die Eigenschaften erfindungsgemäß erzeugter Bleche um mindestens 20 % besser sind als die jeweiligen Eigenschaften konventionell erzeugter Bleche. It can be seen that the tapes produced according to the invention a fine structure and, due to this, a have excellent ductility. So is found that the properties Sheets produced according to the invention by at least 20% are better than the respective properties conventionally produced sheets.

BEZUGSZEICHENREFERENCE NUMBERS

FF
Förderrichtungconveying direction
11
Gießwalzanlagecontinuous casting and rolling
22
Schmelzofenfurnace
33
Erstarrungseinrichtungsolidification facility
44
Treibereinrichtungdriving means
55
Scherescissors
66
Treibereinrichtungdriving means
77
Homogenisierungsofenhomogenizing
88th
Haspeleinrichtungcoiler
99
Treiberdriver
1010
Reversierwalzgerüstreversing
1111
Treiberdriver
1212
Haspeleinrichtungcoiler
1313
Rollgangroller table
1414
Plattformplatform
1515
Förderwegconveying
1616
Plattformplatform

Claims (11)

  1. A method for producing a magnesium hot strip
    in which a melt from a magnesium alloy is continuously cast to form a roughed strip with a maximum thickness of 50 mm, and
    in which the cast roughed strip is hot-rolled directly from the casting heat at a hot-rolling initial temperature of at least 250 °C and maximum of 500 °C to form a hot strip with a final thickness of maximum 4 mm, whereby in the first hot-rolling pass a reduction in thickness of at least 15 % is achieved.
  2. The method according to Claim 1, characterised in that the casting of the melt takes place under a protective or inert gas.
  3. The method according to one of Claims 1 or 2, characterised in that the roughed strip is brought to the hot-rolling initial temperature before the hot-rolling in the course of a temperature equalization.
  4. The method according to one of the foregoing claims, characterised in that the reduction in thickness in the first hot-rolling pass amounts to at least 20 %.
  5. The method according to one of the foregoing claims, characterised in that the hot strip is continuously finish-rolled after the first pass to final thickness in several passes.
  6. The method according to one of Claims 1 to 4, characterised in that the hot-rolling takes place in several passes in reversing fashion.
  7. The method according to one of Claims 5 or 6, characterised in that the hot strip is coiled on a hot coiler at least after the first pass, and is maintained at deformation temperature.
  8. The method according to Claims 6 and 7, characterised in that the reversing hot-rolled hot strip is coiled between each rolling pass on a hot coiler.
  9. The method according to one of Claims 7 or 8, characterised in that the deformation temperature at which the hot strip is maintained on the coil amounts to more than 300 °C.
  10. The method according to one of the foregoing claims, characterised in that the overall degree of deformation achieved during hot-rolling amounts to at least 60 %.
  11. The method according to one of the foregoing claims, characterised in that the magnesium alloy is a wrought alloy with up to 10 % aluminium, up to 10 % lithium, up to 2 % zinc, up to 2 % manganese, up to 1 % zirconium, and up to 1 % cerium.
EP01978446A 2000-10-23 2001-10-23 Method for producing a magnesium hot strip Expired - Lifetime EP1330556B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE10052423A DE10052423C1 (en) 2000-10-23 2000-10-23 Production of a magnesium hot strip comprises continuously casting a magnesium alloy melt to a pre-strip, and hot rolling the pre-strip directly from the casting heat at a specified roller starting temperature to form a hot strip
DE10052423 2000-10-23
PCT/EP2001/012201 WO2002036843A1 (en) 2000-10-23 2001-10-23 Method for producing a magnesium hot strip

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DE102008039140A1 (en) 2008-08-21 2010-03-04 Mgf Magnesium Flachprodukte Gmbh - Continuous hot casting and rolling process for magnesium strip discharges inert gas onto roller surface

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DE10150021B4 (en) * 2001-10-11 2005-08-04 Peter Stolfig Method and device for the production of profiles or sheet metal parts from magnesium or magnesium alloys
AU2003900971A0 (en) * 2003-02-28 2003-03-13 Commonwealth Scientific And Industrial Research Organisation Magnesium alloy sheet and its production
DE10317080B4 (en) * 2003-04-12 2006-04-13 Peter Stolfig Process for the production of shaped sheet metal parts and device for carrying out the process
CN100382905C (en) * 2003-04-15 2008-04-23 彼德·施托尔菲希 Method and apparatus for manufacturing profiled sheet parts
CN101771135B (en) * 2003-09-26 2012-05-23 株式会社半导体能源研究所 Light-emitting device and manufacture method
DE102004048805B3 (en) * 2004-10-07 2006-05-18 Thyssenkrupp Steel Ag Process for producing sheets from a magnesium melt
DE102005052774A1 (en) * 2004-12-21 2006-06-29 Salzgitter Flachstahl Gmbh Method of producing hot strips of lightweight steel
DE102006036224B3 (en) 2006-08-03 2007-08-30 Thyssenkrupp Steel Ag Production line for magnesium strip has at least one device to feed additional metal strip into winding device
DE102006036223B3 (en) * 2006-08-03 2007-08-30 Thyssenkrupp Steel Ag Production line for producing a thin magnesium strip comprises a coiler having a coiling sleeve fixed coaxially to the rotary axis of a coiler mandrel
CN101688270B (en) 2007-06-28 2012-09-05 住友电气工业株式会社 Magnesium alloy plate
JP5264140B2 (en) * 2007-10-16 2013-08-14 Ihiメタルテック株式会社 Magnesium alloy hot rolling equipment
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RU2449047C1 (en) * 2010-10-29 2012-04-27 Федеральное государственное образовательное учреждение высшего профессионального образования "Национальный исследовательский технологический университет "МИСиС" Method for obtaining superplastic sheet of high-strength aluminium alloy
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US20040079513A1 (en) 2004-04-29

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