US20150052717A1 - Method and device for descaling a scaled metal strip - Google Patents

Method and device for descaling a scaled metal strip Download PDF

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Publication number
US20150052717A1
US20150052717A1 US14/382,145 US201314382145A US2015052717A1 US 20150052717 A1 US20150052717 A1 US 20150052717A1 US 201314382145 A US201314382145 A US 201314382145A US 2015052717 A1 US2015052717 A1 US 2015052717A1
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United States
Prior art keywords
strip
straightening
rolls
roll
downstream
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Abandoned
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US14/382,145
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English (en)
Inventor
Andreas Noé
Jens Hoffmann
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BWG Bergwerk und Walzwerk Maschinenbau GmbH
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BWG Bergwerk und Walzwerk Maschinenbau GmbH
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Assigned to BWG BERGWERK-UND WALZWERK-MASCHINENBAU GMBH reassignment BWG BERGWERK-UND WALZWERK-MASCHINENBAU GMBH ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: HOFFMANN, JENS, NOE, ANDREAS
Publication of US20150052717A1 publication Critical patent/US20150052717A1/en
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    • 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
    • B21B45/04Devices for surface or other treatment of work, specially combined with or arranged in, or specially adapted for use in connection with, metal-rolling mills for de-scaling, e.g. by brushing
    • B21B45/06Devices for surface or other treatment of work, specially combined with or arranged in, or specially adapted for use in connection with, metal-rolling mills for de-scaling, e.g. by brushing of strip material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21BROLLING OF METAL
    • B21B15/00Arrangements for performing additional metal-working operations specially combined with or arranged in, or specially adapted for use in connection with, metal-rolling mills
    • B21B2015/0071Levelling the rolled product
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/45Scale remover or preventor
    • Y10T29/4517Rolling deformation or deflection

Definitions

  • the invention relates to a method of and an apparatus for descaling metal strip, in particular a scaly hot-rolled metal strip having a thickness of more than 1 mm, for example 1.2 mm to 16 mm, where the strip is guided around at least two straightening rolls one downstream of the other in a travel direction of the strip so as to undergo alternate bending, at least one of the straightening rolls being positionable transversely to the travel direction of the strip.
  • metal strip means in particular metal strip made from steel or stainless steel. These may be strips that are wound onto coils. In the context of the invention, however, metal strip also relates to metal sheets or similar strip sections.
  • hot-rolled metal strips have to be descaled, for example by pickling or by other measures.
  • descaling is as a rule carried out by stretch bending. Apart from the efficient mechanical pre-descaling with the resulting higher process rates and lower acid consumption, stretch bending is also useful for removing any unevenness in the strip caused by plastic stretching.
  • Such methods of descaling hot-rolled strips by stretch bending are known for example from DE 23 50 503 [U.S. Pat. No. 3,924,428] and DE 29 42 270.
  • stretch-bending systems are equipped with tensioning roll sets at the upstream and downstream ends. Due to the deformation losses that disproportionately increase with the strip thickness, the strip tension at the downstream end is as a rule markedly higher than the strip tension at the upstream end.
  • stretching degrees of more than 1% are usually required in order to achieve an efficient descaling and at the same time an improved stretching result. From a system engineering point of view, this requires relatively high capital investment, namely in particular due to the required tensioning roll sets.
  • descaling using stretch-bending systems is limited to strip treatment lines with an endless strip, so that the strip leading and trailing ends of the coils have to be joined together.
  • DD 294 886 proposes an apparatus for is mechanically pre-descaling hot strip that is fed from an upstream supply coil to a pickling bath, which apparatus is made up of a plurality of bending mills each equipped with a concave and a convex bending roll, which bending roll pairs change from one bending rolling mill to another bending rolling mill according to their roll profile, so that the continuous profile between the bending rolls is alternately curved upward and curved downward. It should be possible to use such an apparatus also in push-type pickling systems, where transport may be carried out for example by driven roll sets.
  • the strip is alternately deformed as it travels downstream, with the bending occurring as a result of the convex-concave profiles substantially about an axis that extends in the travel direction of the strip.
  • the bending geometry is dictated by the roll geometry, so that the system can only insufficiently be adapted to different circumstances.
  • DE 10 2009 035 161 describes a method and an apparatus for descaling metal strips in which a cryogen (for example liquid nitrogen) is applied in order to release and remove contaminant and/or scale particles. Moreover, water is applied to the strip surface prior to the application of the cryogen. During the application of the water or after the application of the water and prior to the application of the cryogen, the strip may be guided over at least one roll at least on one side, so that the strip is subjected to bending deformation.
  • a cryogen for example liquid nitrogen
  • a method of descaling hot-rolled steel sheets is known in which the metal sheet is mechanically deformed for the is purpose of breaking up the oxide layer, and the broken-up oxide layer is carried off by a yieldable grinding pad.
  • the metal sheet is bent to a radius between 50 mm and 300 mm.
  • the metal sheet is stretched to at least 0.2% of permanent elongation (see DE 198 17 525).
  • an apparatus for straightening metal strip using guide rolls that are parallel to each other and a straightening roll disposed between the two guide rolls is known in which the strip is wrapped in a form-fit manner around the straightening roll between two lines of contact, along which the guide rolls are in indirect contact with the guide rolls.
  • the straightening is carried out by altering the bending shape, so that the strip tension does not need to perform any straightening, but is only used to advance the strip.
  • the required tensile force remains well below what is required for stretching and bending the strip during stretch bending.
  • the guide rolls together with the straightening roll form a straightening path and in doing so occupy the space from the straightening roll, which is determined by the strip thickness, so that the strip is clamped along the two contact lines in a gap as it were between the straightening roll on the one hand and respectively one guide roll on the other hand (see EP 0 865 839 [U.S. Pat. No. 5,953,946] or DE 197 08 488 [U.S. Pat. No. 5,815,034]).
  • the object of the invention is to provide a method that allows problem-free and economical descaling at reduced system (investment expenses) for a perfect and effective descaler.
  • the invention teaches, in a method of the above-mentioned type for descaling metal strip, in particular of a hot-rolled metal strip, that the strip is without tension at the upstream end upstream of the straightening rolls or is subject to a low tensile stress of less than 10% of the yield strength of the strip and/or of less than 25 MPa and that the diameter of the guide rolls and the spacing thereof in the travel direction of the strip as well as their positioning transversely to the travel direction of the strip are selected such, taking into account the strip properties (and the tensile stress), that elongations and compressions of at least 2%, preferably of at least 3% are generated on the upper face and the lower face of the strip.
  • the invention is based here on the discovery that problem-free descaling becomes possible even without any degree of stretching and consequently without any plastic elongation of the strip, if as a result of a tension-free alternate bending, the elongations and compressions on the upper face and the lower face of the strip are sufficiently great. Any overall plastic elongation of the strip, which occurs during stretch bending, is dispensed with. However, the pickling attack of the acid or the effect of any mechanical descaling methods such as brushing or spraying can be markedly increased even without any degree of stretching.
  • the strip is plastically bent at least once in one direction and once in the opposite direction, so that the upper face and the lower face of the strip are both plastically elongated and plastically compressed.
  • approximately equal bending radii are preferably set in each case for the two bends.
  • a bending elongation or an edge-fiber elongation/compression of more than 2%, preferably more than 3% is required even in the case of a tension-free passage or if the strip is subjected to no or only a very low tensile stress.
  • the invention is based here on the realization that these bending elongations can be readily generated if the rolls are very close to each other.
  • any “form-fit bending”, which is described for example in EP 0 865 839, is expressly dispensed with.
  • the spacing between the roll surfaces of two directly adjacent rolls is always greater than the strip thickness, so that no form-fit bending takes place.
  • This has the advantage that the scale broken up and partially flaking or dropping off can be disposed of, for example, in a dry method by suction or in a wet method by flushing away, for example using water. This is possible despite the tight arrangement of the straightening rolls, so that any accumulation or caking of scale on the straightening rolls and any associated surface damage on the strip is avoided. The reason is that the two-sided contact of the strip with the straightening roll and any idler roll, which occurs during form-fit bending and in the case of a scaled strip would lead to surface damages, is avoided.
  • an idler roll (or a further straightening roll) is provided upstream of the upstream straightening roll.
  • An idler roll (or a further straightening roll) is preferably provided downstream of the downstream straightening roll.
  • an idler roll may be provided both upstream or downstream of each straightening roll, however these (additional) idler rolls can also be replaced with (additional) straightening rolls.
  • One or more idler rolls (or additional straightening rolls) may also be positionable transversely to the travel direction of the strip.
  • the straightening roll may either be moved relative to one or more (fixed) idler rolls or the idler roll may be moved relative to a (fixed) straightening roll.
  • both the straightening rolls and the idler rolls may be positionable.
  • a very compact arrangement of the straightening rolls and idler rolls is carried out, so that the desired elongations or compressions on the upper face and/or the lower face of the strip are generated.
  • an edge-fiber elongation/compression of more than 2%, preferably more than 3% is enforced even in the case of a tension-free passage or if the strip is subjected to a low tensile stress.
  • Edge-fiber elongation/compression means elongation/compression on the upper face and the lower face of the strip.
  • the spacing of the straightening rolls and, if present, the idler rolls and the positioning of the straightening rolls and, if present, the idler rolls is here selected such that in the tension-free condition, the strip can assume on the straightening rolls a maximum circle diameter on the straightening rolls that corresponds to a maximum of three times the straightening roll diameter, preferably twice the straightening roll diameter. Consequently, the straightening rolls and idler rolls are located in such close proximity to each other and are positioned at such a transverse overlap depth that even in the case of a tension-free strip, a maximum circle diameter of the strip may be formed that cannot exceed a maximum value of three times the straightening roll diameter, preferably even only twice the straightening roll diameter.
  • the bending line of the strip which occurs as a result of the bending moments and, if present, the (low) tensile stress, will then result in a bending radius that corresponds, for thinner strips, to the straightening roll radius.
  • the straightening roll diameter is selected to be so small that even in the case of the smallest strip thickness, a(n) (surface) elongation of more than 2%, preferably more than 3% will be achieved.
  • the straightening rolls have a diameter that has a maximum of fifty times the smallest strip thickness that is to be processed in the system. For thicker strips, the bending radius will be adjusted by positioning the straightening rolls and, if present, the idler rolls in such a way that the maximum edge-fiber elongation or surface elongation of more than 3% is achieved.
  • the invention proposes creating a strip tension at the downstream end and consequently downstream of the straightening rolls that exceeds the strip tension at the upstream end at least by the degree of the deformation losses. Consequently, the strip will be under a tensile stress that is sufficient to cover, in cooperation with any idler roll drives, all of the deformation losses that may occur in the apparatus.
  • the strip tension at the downstream end is generated by the wind-up tension of a finish coil. In the case of very large strip thicknesses, the deformation losses may become so great that the strip tension required at the downstream end exceeds the available tension (for example the wind-up tension). In this case, the positioning of the straightening roll will then be limited or reduced.
  • the apparatus according to the invention can also be used in lines without an endless strip, for example in push-type pickling lines.
  • Such lines are predominantly used for great strip thicknesses of for example up to 16 mm.
  • the strip leading end will be pushed from the supply coil via a drive unit at the upstream end through the pickling section to the finish coil.
  • At least one further drive unit may alternatively be provided at the downstream end immediately downstream of the descaling apparatus to generate the required strip tension. As soon as the strip leading end has passed the drive unit (at the downstream end) the latter is closed and strip tension is built up. Consequently, as a result of the additional drive unit at the downstream end, the amount of strip length that is not pre-descaled can be minimized.
  • the invention proposes as an option to provide a drive unit at the upstream end that generates the strip tension at the upstream end for the passage of the strip, so that also the strip trailing end, with the exception of the strip length from the driving unit at the upstream end up to the straightening rolls, is optionally pre-descaled.
  • the last straightening roll (or the last idler roll) to have a positionable bending roll disposed downstream thereof that can correct any residual curvature.
  • the invention proceeds from the realization that, as a result of the high plastic bending about the straightening rolls in the strip, a plastic residual curvature is generated. This will be removed or minimized by the positioning of at least one positionable bending roll. Consequently, the strip will be counter-bent after the plastic bending about the straightening rolls by at least one bending roll, so that no or only a small residual plastic curvature remains in the strip.
  • Such a bending roll will preferably have a diameter that is dimensioned such that even the smallest strip thickness can still be bent beyond the elastic limit.
  • the bending roll may be driven.
  • the scale broken up on the straightening rolls is aspirated or is flushed or blown off by a (liquid or gaseous) medium. In this way, any accumulations or deposit build-ups in the area of the straightening rolls will be avoided, so that in particular surface damage to the strip is avoided.
  • the straightening rolls have a relatively small diameter.
  • the straightening rolls have a diameter that is less than fifty times the smallest strip thickness to be processed. It may thus be useful to use straightening rolls having a diameter of less than 100 mm.
  • the straightening roll diameter would be selected to be so small that, even in the case of the smallest strip thickness, a sufficient edge-fiber elongation will be achieved. It is useful here to support the straightening rolls against sagging by backup rolls, with each straightening roll preferably having two backup rolls associated therewith.
  • the ratio between the backup roll diameter and the straightening roll diameter is preferably 1.5, particularly preferably 1.25.
  • the invention preferably proposes to associate in each case at least two separate respective backup rolls with the straightening rolls or with each straightening roll. Consequently, the individual straightening rolls are in each case individually supported, so that each backup roll is associated with just one single straightening roll.
  • the idler rolls preferably have a diameter of 150 mm to 600 mm, particularly preferably of 200 mm to 300 mm. In the case of such diameters, idler rolls can be created that on the one hand can accommodate sufficiently great forces and on the other hand allow the tight geometry of the arrangement that is essential to the invention.
  • the object of the invention is not only the method described, but also an apparatus for carrying out this method.
  • Such an apparatus includes at least one upstream straightening roll and one downstream straightening roll.
  • at least one idler roll is provided upstream of the upstream straightening roll and at least one idler roll is provided downstream of the downstream straightening roll.
  • one idler roll can be provided upstream of each straightening roll and one idler roll can be provided downstream thereof.
  • the apparatus preferably further includes a supply coil at the upstream end and a finish coil at the downstream end, with the finish coil as a rule not being provided directly downstream of the descaling apparatus, but downstream of the descaling or pickling section.
  • a descaling apparatus is provided downstream of the descaling apparatus, and this descaling apparatus may for example be a pickling apparatus. Alternatively, however, also other descaling apparatus may be used, for example blasting apparatus. According to a further proposition there is downstream of the last straightening roll (or the idler roll) a drive unit at the downstream end. Alternatively or in addition, a drive unit at the upstream end may be provided upstream of the upstream straightening roll (or idler roll).
  • the optimal roll positioning is precalculated using a mathematical model that takes into account as parameters at least the strip thickness, the strip width, the yield strength, the elasticity module, the roll diameter as well as the roll geometry, the tensile stress on the strip at the upstream end and the occurring deformation bending losses.
  • an upstream straightening roll and a downstream straightening roll i.e. a straightening roll pair is provided in which the straightening rolls may be directly adjacent one another in the travel direction of the strip, or wherein each straightening roll has two respective idler rolls.
  • a straightening roll pair is provided in which the straightening rolls may be directly adjacent one another in the travel direction of the strip, or wherein each straightening roll has two respective idler rolls.
  • an upstream straightening roll pair that includes straightening rolls having a straightening roll diameter that is smaller than the straightening roll diameter of the straightening rolls of a downstream straightening roll pair.
  • the upstream straightening roll pair will then be used for descaling thinner strips, whereas the downstream straightening roll pair with a greater straightening roll diameter will be used for descaling thicker strips.
  • the respective backup rolls have a smaller or a larger diameter.
  • the bending effect can be enhanced with smaller straightening roll diameters on thinner strips.
  • the additional loads on the backup rolls will be exceeded. Therefore, it is advantageous in the case of thicker strips to use a downstream straightening roll pair with larger diameters.
  • the descaling apparatus according to the invention can also be used in lines without an endless strip, for example in push-type pickling lines.
  • the descaling apparatus according to the invention can also be used in lines with an endless strip as a low-cost variant compared to a stretch-bending system.
  • FIG. 1 is a highly simplified view of an apparatus for descaling hot-rolled strips using a descaling apparatus
  • FIG. 2 is an enlarged view of the descaling apparatus
  • FIG. 3 shows a modified embodiment of the apparatus of FIG. 2 .
  • FIG. 4 shows a further embodiment of the apparatus of FIG. 2 .
  • FIG. 1 shows an apparatus for descaling a hot-rolled scaly strips 1 that unwound from a supply coil and is wound onto a finish coil 5 .
  • Predescaling is carried out in a (mechanical) descaling apparatus 3 , in which the scale on the strip surface is broken up in order to ensure an improved acid attack in the downstream descaling or pickling section 4 .
  • the subject matter of the present invention is in particular the descaling apparatus 3 that is indicated only schematically in FIG. 1 .
  • FIGS. 2 to 4 various embodiments of this descaling apparatus 3 are shown.
  • the descaling apparatus 3 has at least one straightening roll pair P with two straightening rolls 6 and 7 arranged one downstream of the other in the travel direction of the strip, the metal strip 1 being guided around these straightening rolls 6 and 7 and subjected to alternate bending.
  • the (upper) straightening roll 6 and the (upper) idler roll 9 can be moved transversely to the travel direction of the strip while the (lower) straightening roll 7 and the (lower) idler roll 8 may be stationary.
  • the straightening rolls 6 and 7 are each braced by backup rolls 12 .
  • Each straightening roll has associated therewith two respective backup rolls and each backup roll is associated with a single straightening roll. The fact that the rolls can be positioned transversely to the travel direction of the strip is indicated by double arrows.
  • descaling is carried out by bend-straightening, that is by alternate bending around the straightening rolls 6 and 7 , strip 1 being untensioned on the intake side upstream of the straightening rolls 6 and 7 and the idler rolls 8 and 9 , or is only subjected to a low tensile stress of less than 10% of the yield strength of the strip and preferably less than 25 MPa.
  • the figures show that the diameter of the straightening rolls and the spacing thereof in the travel direction of the strip, as well as the spacing from the respective straightening rolls as well as the positioning of the straightening rolls and the idler rolls is selected such that in the course of a first plastic bending about the straightening roll 6 and a second plastic bending about the straightening roll 7 , elongations and compressions of at least 2%, preferably at least 3% are generated on the top and the bottom face of the strip.
  • descaling is carried out by tension-free alternate bending, which means by contrast to stretch bending, any overall plastic elongation (degree of stretching) is dispensed with.
  • the spacings of the idler rolls 8 and 9 and of the straightening rolls 6 and 7 and the positioning or plunging depth thereof will here be adjusted in such a way that the strip 1 can adopt a maximum circle diameter K on the straightening rolls 6 and 7 , which corresponds to a maximum of three times the straightening roll diameter, preferably to a maximum of twice the straightening roll diameter. This is indicated in the figures by the (dotted) line K. Even if the strip 1 is guided through the arrangement shown without any tension, the strip can still maximally adopt the indicated circle diameter K, due to the tight arrangement of the straightening rolls 6 and 7 and the idler rolls 8 and 9 and the adjusted plunge depths.
  • a bending roll 11 is provided downstream of the straightening roll 7 at the downstream end or on the idler roll 9 thereof for correcting any residual curvature.
  • a further idler roll 10 is provided between the idler roll 9 and the bending roll 11 on the opposite side of the strip.
  • the strip length up to the finish coil 5 back to the descaling apparatus 3 would not be pre-descaled.
  • the drive unit 14 provided at the downstream end directly downstream of the descaling apparatus minimizes the strip length that is not pre-descaled. The reason is that the required strip tension can be generated by this drive unit 14 . As soon as the strip leading end has passed the drive unit 14 , it closes and the strip tension builds up. The same applies to the trailing end of a coil that runs through the descaling apparatus 3 . As soon as, starting from a certain number of remaining turns on the supply coil, the unwinding tension and thus the tensile stress acting in the strip at the upstream end is lost, there is in principle the possibility that the descaling effect decreases.
  • the drive unit 13 is installed at the upstream end, which generates strip tension at the upstream end for the strip 1 , so that also the strip trailing end, with the exception of the strip length from the drive unit 13 at the upstream end up to the straightening rolls, is optimally pre-descaled.
  • FIG. 3 shows a modified embodiment of the invention, where an upstream straightening roll 6 and a downstream straightening roll 7 for alternate bending are also provided. While according to FIG. 2 , only one idler roll 8 is provided is upstream of the upstream straightening roll 6 and only one idler roll 9 is provided downstream of the downstream straightening roll 7 , FIG. 3 shows an embodiment where two idler rolls 8 , 8 ′ and 9 , 9 ′ are associated with each straightening roll 6 and 7 .
  • the idler rolls 8 , 8 ′ are associated with the straightening roll 6 and are provided on the opposite side of the strip, and the idler rolls 9 , 9 ′ are associated with the straightening roll 7 and are also provided on the opposite side of the strip.
  • the two straightening rolls 6 and 7 are positionable, whereas the idler rolls 8 , 8 ′ and 9 , 9 ′ may be stationary. Positionability is again indicated by double arrows.
  • FIG. 4 shows a further option of the invention.
  • two straightening roll pairs P, P′ are provided each with two straightening rolls 6 and 7 , so that the embodiment according to FIG. 4 ultimately corresponds to a “doubling” of the embodiment according to FIG. 2 .
  • the upstream straightening roll pair P has straightening rolls 6 and 7 with a small diameter of for example 50 mm to 60 mm
  • the downstream straightening roll pair P′ has straightening rolls 6 and 7 with a larger diameter of for example 70 mm to 80 mm.
  • the diameter of the idler rolls may be for example 250 mm. Consequently, the descaling apparatus according to FIG.
  • the straightening roll pairs P and P′ can be employed for different strip thicknesses.
  • the straightening roll pair P For thinner strips, for example the upstream straightening roll pair P may be used and for thicker strips the straightening roll pair P′ with larger straightening rolls and is backup rolls may be used. The reason is that when smaller straightening roll diameters are used, the bending effect may be enhanced for thinner strips. For bending forces that occur with thicker strips, however, the additional loads on the backup rolls are exceeded, so that it is advisable with thicker strips to use a downstream straightening roll pair with larger diameters.
  • both straightening roll pairs P and P′ it may also be useful to use both straightening roll pairs P and P′, namely when the bending radii occurring in the case of a tension-free strip at the upstream end or in cases of very low tensile stresses at the upstream end are still too great for an effective descaling.
  • the tension in the strip increases after the upstream straightening roll pair P and thus the strip tension at the upstream end for the downstream straightening roll pair P′.
  • smaller bending radii occur in the case of strips where the bending radius is greater than the straightening roll diameter, which means the edge-fiber elongation and compression and thus also the descaling effect increase.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Straightening Metal Sheet-Like Bodies (AREA)
US14/382,145 2012-04-18 2013-04-04 Method and device for descaling a scaled metal strip Abandoned US20150052717A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE102012103366.8 2012-04-18
DE102012103366A DE102012103366A1 (de) 2012-04-18 2012-04-18 Verfahren und Vorrichtung zum Zunderbrechen eines zunderbehafteten Metallbandes
PCT/EP2013/057128 WO2013156316A1 (de) 2012-04-18 2013-04-04 Verfahren und vorrichtung zum zunderbrechen eines zunderbehafteten metallbandes

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US (1) US20150052717A1 (de)
EP (1) EP2838676A1 (de)
CN (1) CN104245171A (de)
DE (1) DE102012103366A1 (de)
WO (1) WO2013156316A1 (de)

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US20150209840A1 (en) * 2014-01-30 2015-07-30 Thyssenkrupp Steel Europe Ag Method for the surface treatment of a workpiece
CN114769365A (zh) * 2022-04-22 2022-07-22 浙江福达合金材料科技有限公司 一种复合带材侧弯矫直的设备

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KR20160123276A (ko) * 2014-02-27 2016-10-25 이반 티모페예비치 토츠키 냉간 압연을 위한 열간 압연된 반가공의 강재 압연 스톡을 준비하기 위한 방법
CN104475448B (zh) * 2014-10-22 2016-08-24 山东钢铁股份有限公司 一种预防极薄钢卷“塌芯”缺陷的生产工艺
CN109500106A (zh) * 2018-12-28 2019-03-22 北京京诚之星科技开发有限公司 一种破鳞拉矫机

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US10449597B2 (en) * 2014-01-30 2019-10-22 Thyssenkrupp Steel Europe Ag Method for the surface treatment of a workpiece
CN114769365A (zh) * 2022-04-22 2022-07-22 浙江福达合金材料科技有限公司 一种复合带材侧弯矫直的设备

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