This application is the US national phase of PCT application PCT/EP2006/011486, filed 30 Nov. 2006, published 21 Jun. 2007 as WO2007/068359, and claiming the priority of German patent application 102005059653.3 itself filed 14 Dec. 2005, whose entire disclosures are herewith incorporated by reference.
The invention relates to a method and a computer program for controlling a rolling process in which a metal strip is rolled flat by at least two rollers. In principle the invention relates to all types of rolling processes, such as cold rolling, hot rolling, or finish rolling; however, the preferred application is for cold-rolling processes.
Such a method is known in principle from the prior art, for example from Japanese patent application JP 55061309A. The cited document describes how the stability of the rolling process is dependent on the particular position of a so-called neutral point. The neutral point refers to the position on the circumference of a working roller at which the circumferential speed of the working roller equals the speed of the rolled material. To ensure the stability of the rolling process, the cited Japanese patent application teaches the regulation of the strip tension such that the position of the neutral point is always inside a contact arc between the roller and the rolled material.
However, calculation of the position of the neutral point is trivial only for an ideal plastic material, and can be determined for such materials only from measurable parameters for the rolling process. Use of the traditionally calculated (relative) position of the neutral point as a criterion for the stability of a rolling process, therefore, is possible only in limited cases for a nonideal plastic material, i.e. in particular for an elastic-plastic material such as real metals. The reason is that traditionally, the (relative) position of the neutral point for rolling processes of real metals by use of measurable rolling parameters cannot be determined without some inaccuracy.
Proceeding from this prior art, the object of the present invention is to improve a known method and computer program for controlling a rolling process according to the relative position of the neutral point between a roller and a metal strip to be rolled, with respect to the actual behavior of the metal strip during the rolling process.
This object is achieved by a method is characterized in that the value of the flat yield stress ke of the metal strip and the value of the hydrostatic pressure pNH at the neutral point are estimated as not directly measurable process parameters by use of a mathematical model for the individual rolling process on the basis of a first and a second group of measurable process parameters, and that the relative position of the neutral point is calculated based on the estimated values for the flat yield stress ke and the hydrostatic pressure pNH on the basis of the first group of measurable process parameters and on the basis of the flat modulus of elasticity E* of the metal strip and of the compressibility K of the metal strip.
By considering the flat yield stress of the metal strip and the value of the hydrostatic pressure at the neutral point, the relative position of the neutral point may be calculated much more precisely, i.e. more accurately and closer to reality, than has been the case heretofore. This is true in particular because, due to the consideration of the hydrostatic pressure, the volumetric compression of the metal strip during the rolling process enters into the calculation of the position of the neutral point. In addition, the deflection of the strip after passing through the narrowest point of the roller gap is taken into account. This consideration is particularly important for cases in which the values of the advance parameter are approximately zero. The information about the actual position of the neutral point, which is closer to reality by virtue of the invention, allows a control device or an operator observing or controlling the rolling process to intervene more quickly and efficiently in the rolling process to ensure its stability.
Because the parameters of yield stress and hydrostatic pressure at the neutral point are necessary for the more precise calculation of the relative position of the neutral point, but are not easily measurable as measurement parameters during the rolling process, according to the invention these parameters are simulated by a mathematical model that may be adapted to each individual rolling process, and preferably are calculated in real time to provide the actual position of the neutral point for the calculation in a timely manner. However, as input variables for the mathematical model it is advantageous to use only process parameters which can be measured during the rolling process.
According to the invention, the relative position of the neutral point is advantageously calculated according to the following formula:
where
fslip: represents the advance;
σA: represents the strip outlet tension;
K: represents the compressibility of the metal strip;
pN: represents the pressure in the roller gap at the neutral point, perpendicular (normal) to the metal strip;
qN: represents the pressure in the roller gap at the neutral point, in the longitudinal direction of the metal strip;
ke: represents the flat yield stress;
E*: represents the flat modulus of elasticity of the metal strip;
hE: represents the strip thickness at the inlet; and
hA: represents the strip thickness at the outlet.
The rolling process is classified as stably operating when the calculated value ξ for the relative position of the neutral point is between a lower threshold value of approximately 0.12 and an upper threshold value of approximately 0.4.
If the value ξ is less than the lower threshold value, this indicates that the rolling process is unstable; the rolling process must then be restabilized by use of suitable measures such as increasing the strip tension at the outlet, decreasing the strip tension at the inlet, or increasing the friction in the roller gap.
In another case, when the value ξ for the relative position of the neutral point is greater than the upper threshold value of approximately 0.4, this indicates that the friction in the roller gap is too high, and therefore the wear on the rollers is likewise too high, which must then be counteracted by suitable measures.
For documentation purposes it is advantageous when the relative position of the neutral point calculated according to the invention is preferably stored over its elapsed time period. Irrespective of this measure, for rapid initiation of actions to stabilize the rolling process or to eliminate excessive frictional forces in the roller gap it is advantageous when the relative position of the neutral point calculated according to the invention is displayed for an operator on a display device, preferably in real time.
The above-referenced object of the invention is further achieved by a computer program for a control device for controlling a rolling process according to the method described above.
Three figures accompany the description, namely
The invention is described in detail below, with reference to the described figures, in the form of exemplary embodiments.
Within the scope of the present invention, the relative position of the neutral point is used as a measure or criterion of the stability of an individual rolling process. In
The direction of material flow is indicated by the horizontal arrows in
An estimation of the stability of a rolling process and a decision to initiate measures to stabilize the rolling process may be made more accurately the more precisely, i.e. the more closely to reality, the instantaneous position of the neutral point is known.
With reference to
According to the invention, the relative position of the neutral point N is calculated according to the following formula:
where
fslip: represents the advance; σA: represents the strip outlet tension;
K: represents the compressibility of the metal strip (100);
pN: represents the pressure in the roller gap at the neutral point, perpendicular (normal) to the metal strip;
qN: represents the pressure in the roller gap at the neutral point, in the longitudinal direction of the metal strip;
ke: represents the flat yield stress;
E*: represents the flat modulus of elasticity of the metal strip (100);
hE: represents the strip thickness at the inlet; and
hA: represents the strip thickness at the outlet of the roller gap.
In
The situation is different when the value calculated according to the invention is between 0.08 and 0.12; in that case the rolling process is classified as critical, i.e. less stable with respect to fluctuations of the process parameters. The rolling process is even more critical, because it is more unstable, for smaller values of ξ, in particular for values between 0 and 0.08. In both cases of instability, the rolling process must be stabilized by suitable measures, the extent of which (possibly also in combination) depends on the degree of instability. The rolling process may be stabilized by increasing the strip tension σA at the outlet of the roller gap, reducing the strip tension σE at the inlet of the roller gap, and/or increasing the friction in the roller gap. The latter may be achieved, for example, by increasing the roughness of the roller 200, reducing the amount of lubricant, and/or reducing the roller speed.
For values of ξ greater than 0.4, the friction in the roller gap is excessive. This has the disadvantage that the forces that occur, and consequently the wear on the rollers, are too great. This may be remedied by suitable measures such as reducing the strip tension σA at the outlet of the roller gap, increasing the strip tension σE at the inlet of the roller gap, and/or reducing the friction between the roller 200 and the metal strip 100. The friction may be reduced by decreasing the roughness of the roller, increasing the amount of lubricant, and/or increasing the roller speed. The measures described in this paragraph may also be used individually or in combination, depending on the intensity required.
The measures discussed in the previous paragraph may be initiated either automatically or by an operator, according to the calculated value of the position ξ of the neutral point. When the interventions are to be initiated by an operator, it is helpful for the particular instantaneous position of the neutral point to be illustrated for the operator in a display similar to that in
For documentation purposes it is advantageous when the value ξ is stored in its elapsed time period.
The calculation of the value ξ for the neutral position of the point according to the invention is advantageously carried out in a computer program for a control device for controlling a rolling process.
Number | Date | Country | Kind |
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10 2005 059 653 | Dec 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/011486 | 11/30/2006 | WO | 00 | 6/12/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/068359 | 6/21/2007 | WO | A |
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4576029 | Miyake et al. | Mar 1986 | A |
4745556 | Turley | May 1988 | A |
5365761 | Knauschner et al. | Nov 1994 | A |
5520037 | Sorgel | May 1996 | A |
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55 61309 | May 1980 | JP |
55068101 | May 1980 | JP |
57115909 | Jul 1982 | JP |
59166310 | Sep 1984 | JP |
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Number | Date | Country | |
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20080127696 A1 | Jun 2008 | US |