RU2310528C2 - Method for making hot rolled hot zinc-plated strip - Google Patents

Abstract

FIELD: manufacture of hot rolled strips for further coating them by hot zinc plating.

SUBSTANCE: method comprises steps of rolling steel with carbon content no more than 0.12% in wide strip hot rolling mill at predetermined temperature of rolling process termination to strip with thickness 1.2 - 3.0 mm; before coiling hot rolled strip subjecting it to differentiated cooling with water; setting temperature, rolling speed conditions and conditions of coiling strip depending upon final thickness of strip according to it strength characteristics determined with use of mathematical expression taking into account values a_T , ct_B of yield limit and temporary rupture resistance respectively, MPa; h_K - final thickness of strip, mm. Strip is guided to continuous aggregates for etching and hot zinc-plating at temperature no more than 40°C.

EFFECT: less loss of yield due to elimination of flaws occurred at process of technological processing of hot rolled strip to hot zinc-plated product.

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Description

The invention relates to rolling production and can be used in the production of wide hot-rolled strips with subsequent coating by hot galvanizing.

Technologies for the production of thin hot-rolled strips are becoming increasingly more popular, after which, after descaling by etching, bypassing the cold rolling stage, a protective coating is applied by immersion in a melt, for example zinc, followed by the manufacture of stamped products.

A known method for the production of hot rolled strips with zinc coating, including hot rolling in the mill, subsequent acid etching, annealing and processing in a molten zinc (see, for example. Application 2236262 Japan, MKI ⁵ C23C 2/06, C21D 9/48, publ. 19.09 .90 // Kokai tokke kokho. Ser. 3 (4). - 1990. - 63. - P.509-516).

There is also known a method for producing sheet steel with hot zinc coating having good machinability. The method includes hot rolling of steel containing (in%) C 0.020-0.080, Mn 0.05-0.45, unbound Al 0.005-0.10, not containing special carbide forming elements such as Ti and Nb with a rolling end temperature of more than 650 ° C , winding into a roll at a temperature of more than 600 ° C with subsequent processing of the strip, bypassing the cold rolling stage, in Zn melt (see, for example, Application 2200738 Japan, MKI ⁵ C21D 9/46, C21D 8/04, Publ. 09.08.90 // Kokai tokke kokho. Ser. 3 (4). - 1990. - 54. - S.185-194).

The disadvantages of the known methods are the lack of regulation at the stage of hot rolling and winding of temperature-speed processing conditions depending on the final thickness of the rolled strip. This complicates the formation of a given microstructure and, consequently, the mechanical properties of the resulting rolled products, which makes it impossible to further process such hot-rolled rolled products into products with preliminary processing on continuous pickling units (NTA) and in continuous hot dip galvanizing lines.

The closest analogue to the claimed object is a method for the production of hot-rolled hot dip galvanized strips having a low ratio of yield strength to temporary resistance and high fire resistance. The method includes hot rolling of steel, containing by weight (in%) C≤0.01, Mn 0.1-0.5, P 0.01-0.10, Al≤0.05, Cu 0.6-2, 0, if necessary, Ti 0.008-0.200 and (or) Nb 0.008-0.100 and the rest iron with inevitable impurities at a temperature of rolling end ≥800 ° C, subsequent winding of the hot strip into a roll at a temperature of ≤600 ° C, etching and further processing in the bath hot-dip galvanizing for applying a zinc coating (see, Application No. 2197520 Japan, MKI ⁵ C21D 8/02, C23C 2/06, Published 06.08.90 // Kokai tokke kokho. Ser. 3 (4). - 1990. - 53. - S.103-108).

The disadvantage of this method is the lack of a clear regulation of the conditions for the formation of mechanical properties at the stage of hot rolling, depending on the thickness of the strip obtained, and the temperature parameters of the strip when it is tasked with continuous etching and galvanizing units during further processing. This does not allow to provide the specified mechanical properties in the rental, which leads either to a large number of defects during processing of the hot-rolled strip in continuous units, or to the impossibility of the technological process of processing due to increased breakage of the strip.

The technical problem solved by the claimed invention is to increase the yield of hot-rolled hot-dip galvanized products by eliminating the appearance of a defect "kink" formed during the technological processing of hot-rolled strip into hot-dip galvanized products.

The problem is solved in that in the known method for the production of hot-rolled hot-dip galvanized strip, mainly with a thickness of 1.2-3 mm with a carbon content of not more than 0.12%, including hot rolling of metal in rough and finish continuous groups of stands of a broadband mill with a given temperature of the end of rolling , differentiated cooling of the strip with water from above and below by sections of the choking device on the discharge roller table with subsequent winding into a roll, acid etching in a continuously etching unit and subsequently its hot galvanizing of the strip, according to the invention, during hot rolling, the temperature and speed conditions of rolling and winding are set depending on the final thickness of the strip in accordance with its strength characteristics determined from the expression:

where σ _t , σ _in - yield strength and tensile strength, respectively, MPa;

h _to - the final thickness of the strip, mm,

and the task of the hot-rolled strip into continuous etching and galvanizing units is carried out at a strip temperature of not more than 40 ° C.

The mathematical relationship that relates the mechanical properties of a hot-rolled strip to its final thickness is empirical and was obtained by processing experimental data when rolling the specified grade gauge on a 2000 broadband hot rolling mill of OJSC Magnitogorsk Iron and Steel Works.

The essence of the claimed technical solution is to form in the hot-rolled strip depending on its final thickness at the stage of hot rolling and winding the optimal strength properties, which allow tight regulation of the temperature of the strip when it is set in pickling and galvanizing aggregates to exclude the appearance of a “kink” defect, also known as a "break".

To implement the proposed method, the chemical composition of the rolled product (slab billet) is previously determined. Further, based on the need, the final thickness of the hot-rolled strip is determined, and depending on it, the minimum value of the ratio of yield strength to temporary tensile strength (σ _t / σ _c ) is calculated from this dependence. Then, depending on the final thickness of the hot-rolled strip, the temperature and speed mode of hot rolling and winding into a roll is assigned to ensure the specified mechanical properties. Then hot rolling is carried out on the mill and winding the strip into a roll. After that, further processing of the hot-rolled strip is carried out. At the same time, the temperature of the hot-rolled strip when it is assigned to a continuous pickling unit (NTA) and to a continuous hot dip galvanizing unit (ANGC) should not exceed 40 ° C.

Experimental verification of the proposed method was carried out on a continuous broadband hot rolling mill 2000 of OJSC "Magnitogorsk Iron and Steel Works". For this, during hot rolling of various grades of steel with a carbon content of not more than 0.12% into strips 1.2 ... 3.0 mm thick, by varying the modes of rolling and winding strips into a roll (within known temperature limits), the ratio of strength parameters was changed. At the same time, their influence on the quality and technological capabilities of further processing into hot dip galvanized products was evaluated under the conditions of the Scientific and Technical Center of OJSC MMK with preliminary descaling by chemical etching in hydrochloric acid on a continuously etching unit.

The values of the lower boundary of the ratio σ _t / σ _c determined by mathematical modeling, depending on the final thickness of the hot-rolled strip, are given in the table.

steel grade Strip thickness mm Range σ _t / σ _in Yield, ²⁾ % Note 08ps 1,2 0.754 ÷ 0.90 one hundred 08ps 1,2 0.734 ÷ 0.90 78 08kp 1,5 0.761 ÷ 0.90 99 08ps 1,5 0.748 ÷ 0.89 87 08U 2.0 0.771 ÷ 0.92 97 Increased breakage at σ _t / σ _in > 0.90 08U 2.0 0.642 ÷ 0.86 74 St1ps 2,5 0.782 ÷ 0.90 98 St1ps 2,5 0.724 ÷ 0.914 76 Increased breakage at σ _t / σ _in > 0.90 St2ps 3.0 0.804 ÷ 0.88 one hundred St2ps 3.0 0.786 ÷ 0.90 93 08ps ¹⁾ 2,3 0.754 ÷ 0.904 86 Increased breakage at σ _t / σ _in > 0.90 ¹⁾ According to the prototype method - without regulation of strength parameters
²⁾ According to the defect “kink”, in total when processing on a continuous pickling unit and a continuous hot dip galvanizing unit.

The parameter characterizing the mechanical properties of the rolled products and determined by the ratio of the yield strength to the tensile strength (σ _t / σ _in ), allows us to assess the technological capabilities of a defect-free processing of such rolled products in hot-dip galvanized products.

An example of a specific implementation.

A slab of 08ps steel was rolled into a 1.7 mm strip. To ensure optimal strength properties, allowing to exclude the appearance of a “kink” defect during further strip processing, the ratio σ _t / σ _{in was} chosen in the range of 0.76-0.9, which corresponds to the selected steel grade: yield strength (σ _t ) ≈260 MPa, temporary tensile strength (σ _in ) - not more than 340 MPa. Such properties in a hot-rolled strip of a selected thickness can be obtained by providing a temperature of the end of rolling of 860-890 ° C and a temperature of winding the strip into a coil of 650-680 ° C. After hot rolling, the strip was etched in hydrochloric acid in a continuous etching unit, and then the etched strip entered the continuous hot dip galvanizing unit (ANGC). In this case, the task of the strip into the aggregates was carried out at a surface temperature of no higher than 40 ° C.

In the process of manufacturing a hot-dip galvanized strip from a hot-rolled strip, the occurrence of a deflection defect was not observed, nor did the strip break.

Based on the foregoing, we can conclude that the inventive method for the production of hot-rolled hot-dip galvanized strip is efficient and eliminates the disadvantages that occur in the prototype.

The inventive method can be widely used for the production of hot rolled steel used for further processing with the aim of applying a zinc coating to the surface of the strip by dipping into a zinc melt.

Therefore, the claimed method meets the condition of patentability "industrial applicability".

The inventive distinguishing feature characterizing the dependence of the ratio of yield strength and tensile strength to the final strip thickness during hot rolling, is determined from the following.

The most significant in the production of hot rolled strips, which are further processed by etching and hot dip galvanizing, is an indicator determined by the ratio of the yield strength to the tensile strength of the strip material (σ _t / σ _c ). This ratio characterizes the technological feasibility of further processing of the hot-rolled strip in various units, in particular, in modern continuous units of etching, hot-dip galvanizing or with the subsequent use of cold stamping operations. The closer the ratio is to unity, the less ductile the metal is and the more likely it is to crack during processing. The maximum possible ratio of σ _t / σ _in , allowing seamless processing of rolled products from these steel grades, is 0.90. With a larger value of the ratio, due to the significant strength and reduced ductility of the metal, increased breakage is observed during the processing of rolled metal.

The minimum value of the range is selected from the condition for eliminating the occurrence of a deflection “kink” and is determined as follows.

For the claimed range of steel grades (with a carbon content of not more than 0.12%), depending on the specific chemical composition, the boundary values of the mechanical properties of the hot-rolled steel are: yield strength σ _t ≈230 MPa, tensile strength σ _in ≈370 MPa. However, it is necessary to take into account that the hot-rolled strip is subjected to further processing on continuously etching units, which, as a rule, include bending-stretching machines (IRM), training stands, roller descalers, and numerous loopback devices in which the strip undergoes plastic deformation in the result of the rounding of numerous small diameter rollers. A similar situation is developing on modern continuous hot-dip galvanizing lines (ANGC). Therefore, deformation aging (hardening) of the hot-rolled strip occurs when it moves along the etching or galvanizing site. In this case, the total deformation can reach 5–9% (depending on the strip thickness). It should be emphasized that even a slight deformation (within 7%) of the strip leads to an increase in the yield strength by 50-130 MPa, while the tensile strength increases by 40-80 MPa. Therefore, in order to ensure the technological feasibility of processing hot-rolled strips without the formation of cracks, tears, “kinks”, it is necessary that the yield strength in the hot-rolled strip does not exceed values greater than 190-210 MPa. Thus, it becomes necessary to form a certain microstructure at the stage of hot rolling before winding the hot strip into a roll (there should be 1-2 points of cementite). That is, after the end of hot rolling for the selected grades of steel (t = 830-900 ° C) before the start of winding (at t = 650-690 ° C), it is necessary to ensure the full occurrence of recrystallization processes in the strip. This will prevent the formation of large cementite grains that destroy the ferrite matrix. Experimental studies of temperature and speed conditions, carried out at the hot rolling mill 2000 of OJSC Magnitogorsk Iron and Steel Works in the production of strips 1.2-3 mm thick, made it possible to determine the range of changes in mechanical properties (namely, the claimed dependence of the ratio of yield strength to temporary tensile strength from the final thickness of the hot-rolled strip), in which during the further processing of this strip into hot-dip galvanized products, the probability of occurrence of a deflection deflection is minimal.

This distinguishing feature in the known technical solutions is not found.

A distinctive feature characterizing the problem of a hot-rolled strip into processing units (namely, pickling and galvanizing units) at a strip temperature of not more than 40 ° C is not found in the known technical solutions.

The lack of a clear regulation of the temperature regime of the beginning of processing of a hot-rolled strip at continuous pickling and hot-dip galvanizing units leads to the fact that in the case of an elevated surface temperature of a rolled product (above 40 ° C), the yield strength to bending increases. This, in turn, due to the bending of numerous rollers in the aggregates, leads to a high probability of occurrence of excesses. The more this phenomenon (the formation of a “bend”) can occur when the required microstructure is not formed at the hot rolling stage, i.e. required mechanical properties (as indicated above).

Thus, in the known technical solutions, the claimed combination of features is not found that characterize the ratio of strength characteristics depending on the final thickness of the strip formed at the hot rolling stage and temperature regulation of the hot rolled strip when it is set into pickling and hot dip galvanizing units during further processing.

Based on the above analysis of known sources of information, we can conclude that for a specialist the inventive method for the production of hot-rolled hot-dip galvanized strip does not follow explicitly from the prior art, and therefore meets the patentability condition of "inventive step".

Claims (1)

A method of manufacturing a hot-rolled hot-dip galvanized strip with a carbon content in steel no more than 0.12%, mainly 1.2-3 mm thick, including hot rolling of metal in a rough and finish continuous groups of stands of a broadband mill with a given temperature of the end of rolling, differentiated cooling of the strip with water from above and bottom sections of the choking device on the discharge roller table, followed by winding into a roll, acid etching in a continuous etching unit and hot-dip galvanizing of the strip, characterized in that when the temperature and speed conditions of rolling and winding are set depending on the final strip thickness in accordance with the strength characteristics of steel, taking into account the expression σ _r / σ _a = (0,027h _to .72) - 0.9 where σ _t , σ _in - yield strength and tensile strength of steel, respectively, MPa; h _to - the final thickness of the strip, mm, and the task of the hot-rolled strip into continuous etching and galvanizing units is carried out at a strip temperature of not more than 40 ° C.