CN101654729B - Hot rolling method of cold-rolling low-carbon non-oriented electrical steel - Google Patents

Abstract

The invention relates to a manufacture method of cold-rolling non-oriented electrical steel, in particular to a hot rolling method of cold-rolling low-carbon non-oriented electrical steel, comprising a finishing step and a coiling step after the finishing step. At least two passes of rolling are carried out on a plate blank in the finishing step; two phase regions of the austenite and the ferrite of a plate blank have a temperature range with an upper limit lower than 945 DEG C and a lower limit higher than 925 DEG C; and the plate blank is forcefully cooled between two adjacent passes in the finishing step and has a rolling temperature higher than 945 DEG C in the prior pass and a rolling temperature lower than 925 DEG C in the later pass. The hot rolling method enables a common finishing mill group to be suitable for the production of the cold-rolling low-carbon non-oriented electrical steel, simplifies the control method, decreases the production cost and is beneficial to the production and the popularization of the cold-rolling low-carbon non-oriented electrical steel.

Description

The hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel

Technical field

The present invention relates to a kind of manufacture method of cold rolling non-oriented electrical steel, especially relate to a kind of hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel.

Background technology

The Specifeca tion speeification of cold rolling non-oriented electrical steel comprises iron loss, magnetic strength, punching performance, lamination coefficient etc.Traditional cold rolling non-oriented electrical steel relies on the method that increases silicone content to reach the purpose that reduces iron loss usually, but along with the increase magnetic induction and the saturated magnetic strength of silicone content decreases, hardness, yield strength obviously improve, and reduces the punching performance.Therefore make needs such as miniature and micro-machine, miniature transformer etc. in order to satisfy to low iron loss, high magnetic strength, good punching performance, developed cold rolling low-carbon low-silicon non-oriented electrical steel, be carbon content less than 0.015%, siliceous or sial amount is less than or equal to 1% non-oriented electrical steel.

The manufacturing process of cold rolling non-oriented electrical steel mainly comprise smelting, continuous casting, heating, hot rolling, pickling, cold rolling, anneal, be coated with insulation layer, Performance Detection.Wherein hot rolling comprises finish rolling and batches, because hot rolling is to the influence of slab grain size, precipitate, texture etc., its start rolling temperature, finishing temperature, coiling temperature are to finished product magnetic property decisive role, and the hot-rolled temperature of therefore controlling well is the important measures that improve the non-oriented electrical steel magnetic property.Show according to present disclosed data about the cold rolling non-oriented electrical steel hot-rolling method, carry out in the full austenite district as if rolling, iron loss will increase, electromagnetic performance worsens, therefore in order to obtain high magnetic induction density, low iron loss, the hot rolling of non-oriented electrical steel all requires in austenitic area open rolling and two-phase region finish to gauge; Perhaps start rolling temperature is in the austenitic area, and finishing temperature must be in the ferrite recrystallization zone.

Therefore, austenite, ferrite two-phase region just in time are in the finish rolling stage, deformation and phase transformation take place simultaneously in the operation of rolling, comprise that deformed austenite is to ferritic transformation, the ferritic distortion of separating out earlier and recovery and recrystallization etc., thereby cause the uncontrollable of slab deformation drag, the concurrent deformation heat effect further causes the deterioration of situation.Therefore, for common finishing train, each passage rolling load is certain in the operation of rolling, and two-phase region place passage with uncontrollable, can only be corrected control to final work in-process hot-rolled sheet shape for the shape of slab by follow-up ferrite single phase region is rolling.

But for low-carbon low-silicon non-oriented electrical steel, because silicon is ferrite former, reduction with its content, the austenitic area increases, austenite, ferrite two-phase region temperature reduce, two-phase region moves after the position in finish rolling stage is further, thereby causes and can't correct the slab shape by follow-up passage.Therefore, adopt common finishing train that cold rolling low-carbon low-silicon non-oriented electrical steel is rolled, the rolling shape instability of two-phase region will directly cause guaranteeing the work in-process hot-rolled sheet shape specification after smart the bundle, easy narrow rule, a cover, broken belt, severe patient in addition by the gross slab roll uselessly, will have a strong impact on the carrying out of following process.

At present,, developed special-purpose finishing train, according to the rolling control model of special use rolling parameter has been controlled by on-line monitoring to geomery at the singularity that cold rolling low-carbon low-silicon non-oriented electrical steel is produced.But specific equipment, the special-purpose rolling control model development cycle is long, cost is high, has seriously limited production, the popularization of cold rolling low-carbon low-silicon non-oriented electrical steel.

Summary of the invention

Technical problem to be solved by this invention provides a kind of hot-rolling method that makes that common finishing train can be applicable to cold rolling low-carbon low-silicon non-oriented electrical steel production.

The technical solution adopted for the present invention to solve the technical problems is: the hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel, comprise batching after finish rolling and the finish rolling, slab is finish rolling stage rolling through at least two passages, the upper limit of the austenite of described slab, ferrite two-phase region temperature range is lower than 945 ℃, and lower limit is higher than 925 ℃; Through forcing cooling, slab is higher than 945 ℃ in the rolling temperature of preceding a time to described slab between wherein two adjacent passages in finish rolling stage, is lower than 925 ℃ in the rolling temperature of back a time.

As a kind of preferred version: described slab is finish rolling stage rolling through at least three passages, and described pressure cooling settings is between passage third from the bottom and passage second from the bottom.

The invention has the beneficial effects as follows: between adjacent twice are inferior, cool off by pressure, make slab directly enter ferrite area from the austenitic area, therefore slab force to be respectively before and after the cooling austenitic area single-phase rolling, ferrite area is single-phase rolling, rolling state is stable, has avoided uncontrollable in two-phase region rolling deformation drag; Rolling after forcing to cool off through ferrite area, guaranteed the rolling reduction of finish rolling stage at ferrite area, can satisfy requirement to ferrite grain size and texture, thereby in the acquisition that guarantees to have guaranteed when shape satisfies specification final electromagnetic performance, make common finishing train can be applicable to the production of cold rolling low-carbon low-silicon non-oriented electrical steel, simplify control method, reduced production cost, helped production, the popularization of cold rolling low-carbon low-silicon non-oriented electrical steel.

Embodiment

The present invention is further described below in conjunction with embodiment.

The hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel of the present invention, comprise batching after finish rolling and the finish rolling, slab is finish rolling stage rolling through at least two passages, and the upper limit of the austenite of described slab, ferrite two-phase region temperature range is lower than 945 ℃, and lower limit is higher than 925 ℃; Through forcing cooling, slab is higher than 945 ℃ in the rolling temperature of preceding a time to described slab between wherein two adjacent passages in finish rolling stage, is lower than 925 ℃ in the rolling temperature of back a time.

Concrete, the chemical component weight per-cent of above-mentioned slab is C≤0.005%, Si 0.50%～0.80%, Mn 0.15%～0.35%, P 0.01%～0.03%, S≤0.006%, Al _s＜0.0050%, surplus is Fe and unavoidable impurities.Certainly this programme also is applicable to other austenites, ferrite two-phase region temperature range other steel grades in 925～945 ℃.

Under the certain prerequisite of start rolling temperature, except that forcing cooling, the rolling temperature of each passage and coiling temperature mainly are subjected to the influence of naturally cooling, rolling speed, and rolling speed mainly is subjected to rolling load again, batches the influence of speed; Simultaneously, under the prerequisite that rolling speed allows, start rolling temperature should be low as far as possible, to prevent the precipitate solid solutions such as MnS, AlN in the steel, worsens electromagnetic performance.

Therefore on the basis of factors such as the deflection of having taken all factors into consideration the austenitic area, ferrite area deflection, start rolling temperature, finishing temperature, coiling temperature, rolling speed, naturally cooling speed, as a kind of preferred embodiment, above-mentioned slab is finish rolling stage rolling through at least three passages, and above-mentioned pressure cooling settings is between passage third from the bottom and passage second from the bottom.

Certainly the passage second from the bottom except selecting, third from the bottom, also can adjust according to practical situation, as: reach, select fourth from the last, passage third from the bottom; After move, as select passage second from the bottom, last; Perhaps other passages.But reach may cause the reduction of passage rolling temperature last, coiling temperature, influence the ferrite recrystallize, and then cause influence to grain fineness number, texture, reduce electromagnetic performance, perhaps cause passage third from the bottom and the temperature control of passage afterwards thereof to become harsh, even can't realize in order to satisfy rolling temperature; Then move the raising that then may cause start rolling temperature, and cause ferrite area deflection deficiency, and then cause electromagnetic performance to worsen.

Such scheme, between adjacent twice are inferior, cool off by pressure, make slab directly enter ferrite area from the austenitic area, therefore slab force to be respectively before and after the cooling austenitic area single-phase rolling, ferrite area is single-phase rolling, rolling state is stable, has avoided uncontrollable in two-phase region rolling deformation drag; Rolling through the ferrite area of two passages after forcing cooling, guaranteed the rolling reduction of finish rolling stage at ferrite area, can satisfy requirement to ferrite grain size and texture, thereby in the acquisition that guarantees to have guaranteed when shape satisfies specification final electromagnetic performance, make common finishing train can be applicable to the production of cold rolling low-carbon low-silicon non-oriented electrical steel, simplify control method, reduced production cost, helped production, the popularization of cold rolling low-carbon low-silicon non-oriented electrical steel.

Further, thick in order to guarantee hot rolling crystal grain, thus improving electromagnetic performance, the step temperature of batching of above-mentioned slab is higher than 700 ℃.

Above-mentioned pressure cooling can be adopted water-cooled, also can adopt oil cooling.

Embodiment

Non-oriented electrical steel production line in certain factory, the engineering test of the cold rolling low-carbon low-silicon non-oriented electrical steel that has carried out according to hot-rolling method of the present invention, other technologies except that hot rolling implement by existing requirement.

Concrete, its finishing train is the finish rolling that six frame finishing train can realize six passages, and the start rolling temperature scope is with existing identical, and above-mentioned pressure cooling settings forces to be cooled to water quench between passage third from the bottom and passage second from the bottom.

Be subjected to the performance limitations of concrete equipment, for guarantee that start rolling temperature meets the demands and passage third from the bottom before the working ability of each passage, and slab can be by forcing cooling directly to stride across two-phase region between passage second from the bottom and passage third from the bottom, above-mentioned slab is lower than 960 ℃ in the rolling temperature of passage third from the bottom, and promptly the rolling temperature scope of passage third from the bottom is 945～960 ℃.

Simultaneously, in order to guarantee that the processing after the passage second from the bottom can have enough cooling spaces until batching, the step temperature of batching that guarantees slab is higher than 700 ℃, above-mentioned slab is higher than 890 ℃ in the rolling temperature of passage second from the bottom, the rolling temperature scope that is passage second from the bottom is 890～925 ℃, thereby make slab can satisfy the processing needs, guarantee to obtain high magnetic induction density, low iron loss through the coiling temperature after the rolling temperature of passage last reaches behind the naturally cooling.

Equally, be subject to the performance of concrete equipment, batch top temperature roughly about 750 ℃.All the other passage rolling temperatures are determined according to naturally cooling, rolling speed accordingly.Concrete chemical ingredients, finish rolling parameter, electromagnetic performance see Table 1.

The non-oriented electrical steel that present method is produced rolling stable, width is qualified; Simultaneously, as shown in Table 1, magnetic strength substantially can be constant in 1.74～1.76T, and iron loss is reducing along with the raising of Si content, coiling temperature, passage rolling temperature second from the bottom.Yield rate height according to the test actual measurement, this programme can make common finishing train be applicable to cold rolling low-carbon low-silicon non-oriented electrical steel production, when obtaining stable size, satisfactory electromagnetic performance be can obtain, production, the popularization of cold rolling low-carbon low-silicon non-oriented electrical steel helped.

The chemical ingredients of table 1 embodiment, finish rolling parameter, electromagnetic performance

Claims (3)

1. the hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel, comprise batching after finish rolling and the finish rolling, slab is finish rolling stage rolling through at least three passages, it is characterized in that: the upper limit of the austenite of described slab, ferrite two-phase region temperature range is lower than 945 ℃, and lower limit is higher than 925 ℃; Described slab wherein cools off through forcing between two adjacent passages the finish rolling stage, and described pressure cooling settings is between passage third from the bottom and passage second from the bottom; The rolling temperature scope of passage third from the bottom is 945～960 ℃, and the rolling temperature scope of passage second from the bottom is 890～925 ℃.

2. the hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel as claimed in claim 1 is characterized in that: the chemical component weight per-cent of described slab is C≤0.005%, Si 0.50%～0.80%, Mn 0.15%～0.35%, P 0.01%～0.03%, S≤0.006%, Als＜0.005%, all the other are Fe and unavoidable impurities.

3. the hot-rolling method of cold rolling low-carbon low-silicon non-oriented electrical steel as claimed in claim 1, it is characterized in that: the step temperature of batching of described slab is higher than 700 ℃.