EP4146414B1 - Verfahren zum steuern oder regeln der temperatur eines stahlbandes bei der warmumformung in einer warmbandstrasse - Google Patents

Verfahren zum steuern oder regeln der temperatur eines stahlbandes bei der warmumformung in einer warmbandstrasse Download PDF

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Publication number
EP4146414B1
EP4146414B1 EP21716283.3A EP21716283A EP4146414B1 EP 4146414 B1 EP4146414 B1 EP 4146414B1 EP 21716283 A EP21716283 A EP 21716283A EP 4146414 B1 EP4146414 B1 EP 4146414B1
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Prior art keywords
temperature
process model
target value
target
hot
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German (de)
English (en)
French (fr)
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EP4146414A1 (de
Inventor
Christoph Hassel
August Sprock
Kai GRYBEL
Guido BUSCHHOFF
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SMS Group GmbH
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SMS Group GmbH
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    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D8/00Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment
    • C21D8/02Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips
    • C21D8/04Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips to produce plates or strips for drawing, e.g. for deep-drawing
    • C21D8/0421Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips to produce plates or strips for drawing, e.g. for deep-drawing characterised by the working steps
    • C21D8/0426Hot rolling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B37/00Control devices or methods specially adapted for metal-rolling mills or the work produced thereby
    • B21B37/74Temperature control, e.g. by cooling or heating the rolls or the product
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D8/00Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment
    • C21D8/02Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips
    • C21D8/0221Modifying the physical properties of ferrous metals or ferrous alloys by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips characterised by the working steps
    • C21D8/0226Hot rolling
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D9/00Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor
    • C21D9/52Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor for wires; for strips ; for rods of unlimited length
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B2261/00Product parameters
    • B21B2261/20Temperature

Definitions

  • the invention relates to a method for controlling or regulating the temperature of a steel strip during hot forming in a hot strip mill.
  • the hot forming of a steel strip usually takes place in a hot strip mill.
  • This consists of different individual aggregates such as: B. furnaces, rolling stands, drives, unwinding and winding devices for the steel strip or cooling sections.
  • Such a hot strip mill is documented DE 11 2013 001434 T5 known, which forms the basis for the preamble of claims 1 and 15.
  • a variety of different devices or methods are known for controlling or regulating such units. These controls or regulations are essentially based on a target/actual value comparison and deriving appropriate corrective measures to maintain the target value.
  • the target values to be adhered to are defined based on empirical knowledge and/or previous process analyses.
  • a connection is usually formed in advance between the product properties of the steel strip and the target values of the unit to be set.
  • control or regulation of individual units of a hot strip mill is disadvantageous in that optimizing the process control of the individual unit does not always necessarily lead to the optimization of the entire manufacturing process.
  • energy and manufacturing costs can be saved through more dynamic process control.
  • the object of the invention is to further develop the known control or regulation of a hot strip mill in such a way that the setpoint specifications for the individual units are optimized across systems with regard to, for example, product properties of a steel strip.
  • a higher-level process model stores and / or exchanges target and / or actual values, including times, speeds, temperatures, cooling rates and / or heating rates, with at least two controls or regulations of the units online.
  • the higher-level process model determines based on the exchanged target and/or actual values and/or stored values and with the help of subordinate process models, such as a temperature model of the furnace, temperature model of the cooling section or a model of the forming in the hot strip mill, the temperature of the steel strip is predicted online for at least one point before the hot strip is coiled up.
  • the higher-level process model determines new setpoint specifications for the units and passes the setpoint specifications to the control or regulation of the unit in order to maintain the setpoint specification for the temperature of the steel strip.
  • the new setpoint specifications are determined with the help of an optimization algorithm that includes at least one subordinate process model.
  • the higher-level process model represents the current production status of the steel strip based on the target and/or actual values of the units.
  • suitable process models such as B. energy and material balances for a homogenization furnace or a statistical model for the structural development of a steel strip
  • the higher-level process model determines the development of a temperature curve before, for example, coiling in the future. This means that a difference between the setpoint specification for this individual unit and a possible deviation can be recognized at an early stage.
  • An optimization algorithm running in the higher-level optimization model can optimize setpoint specifications in such a way that the setpoint specification of the hot strip is achieved before coiling, taking into account previously defined optimization goals.
  • the optimization goals defined in advance can be, for example, production goals, in particular energy quantities, production quantities or quality goals.
  • the preliminary product is a slab with a thickness d B ⁇ 1 mm to d B ⁇ 300 mm, preferably d B ⁇ 50 mm to d B ⁇ 160 mm from a casting machine and that higher-level process model a casting speed, preferably between v G ⁇ 4 m/min and v G ⁇ 6 m/min, more preferably v G ⁇ 5 m/min and v G ⁇ 6 m/min and a casting machine outlet temperature, preferably T GE ⁇ 800 ° C, the slab is taken into account when determining the target specifications.
  • the optimization goal includes energy consumption, production quantity, process reliability, product properties, production costs and/or system wear.
  • a subordinate process model determines the structural development of the steel strip in the hot strip mill for at least one point, preferably before the hot strip is coiled.
  • the resulting structural development is crucial for the further material properties and/or processing of the steel strip. The more precise control or regulation of the structure development during the process makes it possible to react to deviations at an early stage and to reduce reject quantities and/or post-treatment.
  • a roughing stand and a finishing stand are ideally used.
  • advantageous temperature distributions and sequences can be set and these can also be better represented by a larger number of measuring and control points. This allows the higher-level process model to react better to deviations. Furthermore, this provides more options for intervening in the setpoint specifications of hot rolling.
  • a temperature setpoint of T FS ⁇ 850 ° C to T FS ⁇ 1050 ° C preferably T FS ⁇ 900 ° C to T FS ⁇ 1000 ° C, even more preferably T FS ⁇ 900 ° C to T FS ⁇ 950 ° C is specified by the higher-level process model.
  • a speed setpoint of v F ⁇ 0.4 m/s to v F ⁇ 1 m/s is preferably specified by the higher-level process model.
  • a temperature setpoint of Tvs ⁇ 1000°C to T VS ⁇ 1150°C is specified by the higher-level process model for the setpoint of the inlet temperature into the roughing stand.
  • the setpoint for the outlet temperature from the roughing stand is specified by the higher-level process model in a temperature range from T VE ⁇ 950°C to T VE ⁇ 1100°C.
  • a target value of d FS ⁇ 20 mm to d FS ⁇ 70 mm is specified by the higher-level process model for the target value of the inlet thickness into the finished stand.
  • the setpoint of the reel temperature is preferably specified by the process model in the range from T H ⁇ 30 ° C to T VE ⁇ 750 ° C, more preferably T H ⁇ 450 ° C to T H ⁇ 550 ° C.
  • the alloying element C has a content of 0.03% by weight to 0.15% by weight and / or manganese to a content of 0.50% by weight to 2.00 Weight percent in the steel strip is limited.
  • the optimized setpoint specifications for the production of a subsequent hot strip are the same Production objectives, in particular mechanical properties, can be used.
  • target and / or actual values are online through a higher-level process model with at least two controls or regulations of the units exchangeable and/or storable.
  • the higher-level process model based on the exchanged target and/or actual values and/or stored values and with the help of lower-level process models, determines the temperature of the steel strip online in advance for at least one point before the hot strip is coiled up and detects deviations from the predetermined temperature a setpoint specification at this point provides new setpoint values for the respective aggregates.
  • the new setpoint specifications are transferred from the higher-level process model to the control or regulation of the respective unit in order to maintain the setpoint specification for the temperature of the steel strip.
  • the new setpoint specifications are determined with the help of an optimization algorithm that includes at least one subordinate process model.
  • FIG. 1 shows a possible system diagram of a hot strip mill for producing a hot strip in which the method according to the invention is used.
  • the hot strip mill consists of a casting system 1, two shears 2, 10, two ovens 3, 6, two roughing stands 4, a transfer bar cooling system 5, an inductive heater 7, three finishing stands 8, a cooling section 9 and a reel 11 for winding up the hot strip.
  • a higher-level data processing system 12 has an integrated temperature and structure model. Setpoint and actual values are exchanged with the different systems or assigned regulations, controls and / or measuring devices and stored, for example, in the form of a database.
  • Figure 2 represents a flowchart with an exemplary networking of two units or controls of the two units with the respective process models.
  • the higher-level data processing system I transfers setpoints to the higher-level process model II of the hot strip mill. From these setpoints, for example a strength, the higher-level process model II determines a number of setpoints or setpoint ranges, for example a temperature curve with minimum and maximum temperatures, which are passed on to the lower-level process models Illa, b.
  • the subordinate process models III a, b derive specific target values for the respective unit. For example, a predetermined temperature curve with assigned times becomes a target specification for a burner control in an oven 3 or a target specification for controlling the amount of water in a cooling section 9. These are passed on to the corresponding controls of the respective units.
  • the subordinate process model III a, b can adjust the target specification.
  • An automatic optimization of the process model III a, b can also take place here using a self-learning algorithm. If the target actual size deviates from the target value V of the higher-level process model II, the target values are recalculated on the higher-level level II and adjusted if necessary.
  • Figure 3 shows a diagram with a target temperature curve B and a measured and pre-calculated temperature curve A.
  • the target temperature curve B begins with the end of the casting system 1 and describes the curve up to the reel 11.
  • the actual values are plotted from the end of the casting system 1 to the roughing stand 4.
  • the measured temperature is above the target temperature.
  • the higher-level process model II calculates the temperatures at the different points in the hot strip mill. Based on this temperature curve, different setpoints can be specified at different points in order to correct the temperature deviation. Different process models, material or structural models and/or optimization algorithms can be used to determine the best adaptation strategy.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Control Of Metal Rolling (AREA)
  • Heat Treatment Of Steel (AREA)
  • Feedback Control In General (AREA)
EP21716283.3A 2020-05-05 2021-03-25 Verfahren zum steuern oder regeln der temperatur eines stahlbandes bei der warmumformung in einer warmbandstrasse Active EP4146414B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102020205655.2A DE102020205655A1 (de) 2020-05-05 2020-05-05 Verfahren zum Steuern oder Regeln der Temperatur eines Stahlbandes bei der Warmumformung in einer Warmbandstraße
PCT/EP2021/057720 WO2021223937A1 (de) 2020-05-05 2021-03-25 VERFAHREN ZUM STEUERN ODER REGELN DER TEMPERATUR EINES STAHLBANDES BEI DER WARMUMFORMUNG IN EINER WARMBANDSTRAßE

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EP4146414A1 EP4146414A1 (de) 2023-03-15
EP4146414B1 true EP4146414B1 (de) 2024-03-13

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US (1) US12492442B2 (https=)
EP (1) EP4146414B1 (https=)
JP (1) JP7539626B2 (https=)
CN (1) CN115551652B (https=)
DE (1) DE102020205655A1 (https=)
WO (1) WO2021223937A1 (https=)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102020205655A1 (de) * 2020-05-05 2021-11-11 Sms Group Gmbh Verfahren zum Steuern oder Regeln der Temperatur eines Stahlbandes bei der Warmumformung in einer Warmbandstraße
DE102022210057A1 (de) * 2022-09-23 2024-03-28 Sms Group Gmbh Verfahren und Computerprogramm zum Betreiben einer Produktionsanlage für ein Metallprodukt
CN115608793B (zh) * 2022-12-20 2023-04-07 太原科技大学 一种机理融合数据的精轧温度调控方法
DE102023135965A1 (de) * 2023-12-20 2025-06-26 Sms Group Gmbh Verfahren zum Betrieb einer Warmbandproduktionsanlage und Warmbandproduktionsanlage zur Herstellung eines Warmbandes

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US20030089431A1 (en) 1999-12-27 2003-05-15 Otto Gramckow Method for controlling and/or regulating the cooling stretch of a hot strip rolling mill for rolling metal strip, and corresponding device
WO2004026497A1 (en) 2002-09-19 2004-04-01 Giovanni Arvedi Process and production line for manufacturing ultrathin hot rolled strips based n the thin slab technique
US20040205951A1 (en) 2001-11-15 2004-10-21 Matthias Kurz Control method for a finishing train, arranged upstream of a cooling section, for rolling hot metal strip
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EP2428288A1 (de) 2010-09-08 2012-03-14 Siemens VAI Metals Technologies GmbH Verfahren zum Herstellen von Stahlbändern durch Endloswalzen oder Semi-Endloswalzen
EP2431104A1 (de) 2010-09-16 2012-03-21 Siemens Aktiengesellschaft Echtzeit-Ermittlungsverfahren für Temperatur und Geometrie eines Metall-Warmbandes in einer Fertigstraße
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Also Published As

Publication number Publication date
JP7539626B2 (ja) 2024-08-26
US12492442B2 (en) 2025-12-09
US20230203612A1 (en) 2023-06-29
DE102020205655A1 (de) 2021-11-11
CN115551652B (zh) 2026-03-27
WO2021223937A1 (de) 2021-11-11
CN115551652A (zh) 2022-12-30
JP2023529283A (ja) 2023-07-10
EP4146414A1 (de) 2023-03-15

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