CN101748257A

CN101748257A - Production method of oriented silicon steel

Info

Publication number: CN101748257A
Application number: CN200810229764A
Authority: CN
Inventors: 蒋奇武; 金文旭; 付勇军; 游清雷; 张静; 庞树芳; 张海利; 王晓达
Original assignee: Angang Steel Co Ltd
Current assignee: Angang Steel Co Ltd
Priority date: 2008-12-12
Filing date: 2008-12-12
Publication date: 2010-06-23
Anticipated expiration: 2028-12-12
Also published as: CN101748257B

Abstract

The invention discloses a production method of oriented silicon steel, which is characterized in that the rolling and processing technology adopts the production technologies of three times of cold rolling, two times of intermediate annealing and one time of MgO coating, and finally high temperature annealing is carried out. Because the single-pass rolling force is reduced during the three-pass rolling, the internal structure of the steel is uniform, thereby reducing the high-temperature annealing time by 20-30 percent, and finally obtaining the product with strong (110) [001] texture, the invention not only can obviously improve the electromagnetic performance (the iron loss is reduced and the magnetic induction is increased), but also can reduce the iron loss P1.7 by about 0.08W/kg, improve the magnetic induction B8 by about 0.07T, and improve the product by half to one mark; but also can obviously reduce the total production time and obviously shorten the total production time, thereby improving the production efficiency of the oriented silicon steel.

Description

A kind of production method of oriented silicon steel

Technical field

The invention belongs to technical field of ferrous metallurgy, relate to a kind of production method of silicon steel, specifically is a kind of production method that improves the oriented silicon steel performance.

Background technology

Oriented silicon steel can be divided into common magnetic induction grain-oriented silicon steel (GO steel) and high magnetic induction grain-oriented silicon steel (Hi-B steel) two classes by cold-rolling process and electromagnetic performance.Usually adopt the medium draft cold-rolling practice of secondary to produce GO steel (with MnS as inhibitor).And the Hi-B steel usually adopts a heavy reduction rate cold-rolling practice, its magnetic high and stable (with AlN as inhibitor); Also can adopt the medium draft cold-rolling practice of secondary to produce the Hi-B steel, but magnetic low and unstable (with MnSe (or MnS)+Sb as inhibitor).

Also do not adopt at present the report of three cold-rolling practice production oriented silicon steels.Major cause may be can make the operation lengthening owing to adopt three cold-rolling practices to produce oriented silicon steel, complex procedures, production time and cost all can increase, lumber recovery reduces, take all factors into consideration cost performance, further study so three cold-rolling practices are not produced oriented silicon steel.

Summary of the invention

The present invention discloses a kind of method that improves the oriented silicon steel performance, can not only significantly improve electromagnetic performance (iron loss reduces and magnetic strength increases), and total production time is significantly reduced, thereby improve oriented silicon steel production efficiency.

The technology of the present invention uses MnS as main inhibitor at common orientation silicon steel, and its technical process is:

Smelting → slab → heating → hot rolling → once cold rolling → first time process annealing → secondary cold-rolling → process annealing the second time → three are time cold rolling → be coated with MgO → high temperature annealing.

Concrete method is, the composition that requires of oriented silicon steel is smelted routinely, casts slab, is cooled to behind the normal temperature slab be carried out surface treatment, and the slab after the processing is put into process furnace and carried out heat, carries out hot rolling after coming out of the stove, low temperature batches.

Be characterized in that rolling and treatment process adopts three cold rolling, twice process annealing, once is coated with the production technique of MgO, adopts process annealing for the first time after the once cold rolling; Carry out the process annealing second time after for the second time cold rolling, the MgO coating is cleaned and applied in cold rolling for the third time back to steel plate, carries out high temperature annealing at last.In order to save facility investment and to utilize existing place, adopt secondary milling train when rolling for the third time, steel plate is carried out back and forth rolling, the both sides of milling train are furnished with reeling machine simultaneously.

Concrete composition of the present invention and technology are as follows:

1) composition, by weight percentage: C 0.03%～0.05%, and Si 2.8%～3.4%, Mn 0.05%～0.010%P＜0.01%, S 0.015%～0.030%, and surplus is iron and unavoidable impurities.

2) three cold rollings

Adopt three cold-rolling practices to be rolled, three times cold rolling draft is: once cold rolling draft: 39%～44%; Secondary cold-rolling draft: 45%～50%; Three cold rolling drafts 58%～63%.

3) twice intermediate annealing process

Wet atmosphere 10%～20%H is all adopted in twice process annealing ₂+ 90%～80%N ₂Protection makes crystal grain generation primary recrystallization, eliminates work hardening, for the first time intermediate annealing process be temperature at 830～880 ℃, the time is 2～5min, dew point: 35～45 ℃; Machining stress and part decarburization are eliminated in process annealing for the first time, and carbon content is controlled at 200～300PPm, for the second time intermediate annealing process be temperature at 800～830 ℃, the time is 3～5min, dew point: 40～50 ℃.Eliminate work hardening for the second time and C content is reduced to below the 30ppm;

4) be coated with MgO

After cold rolling for the third time, sample surfaces is cleaned, after the coating MgO coated and dried, sample is put into high-temperature annealing furnace carry out high temperature annealing.

5) high temperature annealing

After cold rolling for the third time, sample surfaces cleans, and applies the MgO coating, and after the oven dry, sample is put into high-temperature annealing furnace carry out high temperature annealing,

Heat-up rate with 500～600 ℃/h is heated rapidly to 500～600 ℃ with three rolled samples, at pure N ₂Protective atmosphere is insulation 1～2h down; Remove Mg (OH) ₂After decomposing the water that produces, protective atmosphere changes 75～100%H into ₂+ 0%～25%N ₂, the heat-up rate with 150～300 ℃/h is rapidly heated 800～900 ℃ again, and insulation 1～2h makes three rolled samples generate the recrystallized structure that contains a small amount of Gauss's nucleus; Heat-up rate with≤20 ℃/h is heated to 1150～1200 ℃ then, at pure H ₂Protective atmosphere is insulation 20～40h down; The temperature-fall period protective atmosphere changes 75～100%H into ₂+ 0%～25%%N ₂, cool to 700 ℃ with the speed of≤20 ℃/h; Protective atmosphere changes pure N into ₂Come out of the stove for＜300 ℃.

The present invention also can adopt conventional high-temperature annealing process, promptly is raised to 550～650 ℃ with about 50 ℃/h speed; At 75%H ₂+ 25%N ₂Protective atmosphere is insulation 1.0～1.5h removalization down

Heshui; Be raised to 1150～1200 ℃ with 15～20 ℃/h speed; At pure H ₂Protective atmosphere is insulation 20～40h down; Outage back shielding gas changes 75%H into ₂+ 25%N ₂Be as cold as about 700 ℃; Shielding gas changes N into ₂Be as cold as＜300 ℃ come out of the stove.

The present invention is directed to common orientation silicon steel (GO), use MnS as main inhibitor, under the situation that does not increase equipment, adopt three cold-rolling practices to produce oriented silicon steel, because three times the power of one-pass roller when rolling diminishes, the interior tissue of steel is even, thereby make the high temperature annealing time decreased, reduced 20%～30%, finally obtained to have the product of strong (110) [001] texture.

The present invention can not only significantly improve electromagnetic performance (iron loss reduces and magnetic strength increases), can make iron loss P1.7 reduce 0.08W/kg approximately, makes magnetic strength B8 improve 0.07T approximately.Can make product improve half to one trade mark; And total production time is significantly reduced, can significantly shorten total production time, thereby improve oriented silicon steel production efficiency.

Embodiment

Technical process of the present invention is: the smelting → slab → heating → hot rolling → once cold rolling → first time process annealing → secondary cold-rolling → process annealing second time → three are time cold rolling → be coated with MgO → high temperature annealing.

Concrete method is, the composition that requires of oriented silicon steel routinely, carry out vacuum melting, cast slab, be cooled to behind the normal temperature slab be carried out surface treatment, the slab after the processing is put into process furnace and is carried out heat, carry out hot rolling after coming out of the stove, low temperature batches, be characterized in that rolling and treatment process adopts three cold rolling, twice process annealing, once is coated with the production technique of MgO, adopts process annealing for the first time after the once cold rolling; Machining stress and part decarburization are eliminated in process annealing for the first time, carry out process annealing second time after for the second time cold rolling, eliminate the work hardening second time and C content is reduced to below the 30ppm; The MgO coating is cleaned and applied in cold rolling for the third time back to steel plate, carries out high temperature annealing at last.

Concrete composition of the present invention and technology are as follows:

1) composition is by weight percentage: C 0.03%～0.05%, and Si 2.8%～3.4%, Mn0.05%～0.10%, and P＜0.01%, S 0.015%～0.030%, and surplus is iron and unavoidable impurities.

2) three cold rollings

3) twice intermediate annealing process

Wet atmosphere 10%～20%H is all adopted in twice process annealing ₂+ 90%～80%N ₂Protection makes crystal grain generation primary recrystallization, eliminates work hardening, and intermediate annealing process is 830～880 ℃ for the first time, and the time is 2～5min, dew point: 35～45 ℃; Process annealing for the first time is controlled at 200～300PPm with carbon content, and intermediate annealing process is 800～830 ℃ for the second time, and the time is 3～5min, dew point: 40～50 ℃.Process annealing for the second time is controlled at carbon content below the 30PPm.

4) be coated with MgO

After cold rolling for the third time, sample surfaces is cleaned, apply the MgO coating, after the oven dry, sample is put into high-temperature annealing furnace carry out high temperature annealing.

5) high temperature annealing

The present invention is heated rapidly to 500～600 ℃ with the heat-up rate of 500～600 ℃/h with three rolled samples, is incubated 1～2h under pure N2 protective atmosphere; Remove Mg (OH) ₂After decomposing the water that produces, protective atmosphere changes 75～100%H into ₂+ %N ₂, the heat-up rate with 20～30 ℃/h is rapidly heated 800～900 ℃ again, and insulation 1～2h makes three rolled samples generate the recrystallized structure that contains a small amount of Gauss's nucleus; Heat-up rate with≤20 ℃/h is heated to 1150～1200 ℃ then, at pure H ₂Protective atmosphere is insulation 20～40h down; The temperature-fall period protective atmosphere changes 75～100%H into ₂+ %N ₂, cool to 700 ℃ with the speed of≤20 ℃/h; Protective atmosphere changes pure N into ₂Come out of the stove for＜300 ℃.

High temperature annealing of the present invention also can adopt conventional annealing way, promptly is raised to 550～650 ℃ with about 50 ℃/h speed; At 75%H ₂+ 25%N ₂Protective atmosphere insulation 1.0～1.5h is down removed constitution water; Be raised to 1150～1200 ℃ with 15～20 ℃/h speed; At pure H ₂Protective atmosphere is insulation 20～40h down; Outage back shielding gas changes 75%H into ₂+ 25%N ₂Be as cold as about 700 ℃; Shielding gas changes N into ₂Be as cold as＜300 ℃ come out of the stove.

In order to be analyzed, adopt same hot-rolled sheet according to traditional once cold rolling method and the secondary cold-rolling method is rolled and back operation experiment, comparing result is as shown in table 1:

Different cold-rolling practices of table 1 and draft are to Effect on Performance

As can be seen from Table 1, adopt three cold-rolling practices and three different drafts of cold rolling employing that the performance of silicon steel is produced very big influence, the iron loss of three cold-rolling practice products is lower than secondary cold-rolling method, and therefore magnetic strength makes the performance of silicon steel improve than the height of secondary cold-rolling method.

Study of the influence of different high temperature annealing schemes to electromagnetic performance

(cold rolling draft is respectively: be divided into two rouleaus 43%, 48%, 58%) with three cold rolling coils of a volume, carry out high temperature annealing by high temperature annealing scheme one (conventional annealing mode) and high temperature annealing scheme two respectively, the finished product are carried out electromagnetic performance detect, the result is as shown in table 2:

The different high temperature annealing systems of table 2 are to Effect on Performance

The high temperature annealing scheme	Always at time/h	Amount detection	??P ₁₅Mean value/W/kg	??P ₁₇Mean value/W/kg	??B ₈/T	Remarks
The high temperature annealing scheme	Always at time/h	Amount detection	??P ₁₅Mean value/W/kg	??P ₁₇Mean value/W/kg	??B ₈/T	Remarks	One	??120～150	??10	??0.949	??1.362	??1.817	Comparative example 5
Two	??90～120	??10	??0.937	??1.359	??1.820	Embodiment	One	??120～150	??10	??0.949	??1.362	??1.817	Comparative example 5

Can find out from table 2, adopt the high temperature annealing scheme two and the electromagnetic performance of scheme one to be more or less the same, but always shorten about 30h, significantly save the energy, and improve production efficiency, save time 25% than the inferior cold-rolling practice of secondary in the furnace annealing time.

Table 3 is a most preferred embodiment of the present invention

Table 3

	Cold rolling draft proportioning/%	Process annealing (min)	Process annealing (min)	High temperature annealing (h)	Amount detection	??P ₁₅Mean value/W/kg	??P ₁₇Mean value/W/kg	??B ₈/T
	Cold rolling draft proportioning/%	Process annealing (min)	Process annealing (min)	High temperature annealing (h)	Amount detection	??P ₁₅Mean value/W/kg	??P ₁₇Mean value/W/kg	??B ₈/T	Embodiment 1	??39、47、60	??3	??4	??8	??10	??0.937	??1.354	??1.801
Embodiment 2	??40、45、58	??4	??4	??7	??10	??0.935	??1.351	??1.814	Embodiment 1	??39、47、60	??3	??4	??8	??10	??0.937	??1.354	??1.801
Embodiment 2	??40、45、58	??4	??4	??7	??10	??0.935	??1.351	??1.814	Embodiment 3	??42、50、62	??2	??3	??7	??10	??0.936	??1.357	??1.819
Embodiment 4	??39、46、58	??5	??5	??8	??10	??0.936	??1.352	??1.806	Embodiment 3	??42、50、62	??2	??3	??7	??10	??0.936	??1.357	??1.819
Embodiment 4	??39、46、58	??5	??5	??8	??10	??0.936	??1.352	??1.806	Embodiment 5	??44、50、63	??2	??3	??7	??10	??0.934	??1.349	??1.821

Claims

1. the production method of an oriented silicon steel, it is characterized in that, rolling and treatment process adopts three cold rolling, twice process annealing, once is coated with MgO, carry out high temperature annealing at last, its technical process is: the smelting → slab → heating → hot rolling → once cold rolling → first time process annealing → secondary cold-rolling → process annealing second time → three are time cold rolling → be coated with MgO → high temperature annealing.

2. the production method of a kind of oriented silicon steel according to claim 1 is characterized in that, three times cold rolling draft is: once cold rolling draft: 39%～44%; Secondary cold-rolling draft: 45%～50%; Three cold rolling drafts 58%～63%.

3. the production method of a kind of oriented silicon steel according to claim 1 is characterized in that, wet atmosphere 10%～20%H is all adopted in twice process annealing ₂+ 90%～80%N ₂Protection makes crystal grain generation primary recrystallization, eliminates work hardening, intermediate annealing process for the first time, temperature be at 830～880 ℃, time 2～5min, dew point: 35～45 ℃, machining stress and part decarburization are eliminated in process annealing for the first time, and carbon content is controlled at 200～300PPm; For the second time intermediate annealing process is, temperature is at 800～830 ℃, and the time is 3～5min, dew point: 40～50 ℃, eliminate work hardening for the second time and C content is reduced to below the 30ppm.

4. the production method of a kind of oriented silicon steel according to claim 1, it is characterized in that, after cold rolling for the third time, sample surfaces cleans, apply the MgO coating, after the oven dry, sample is put into high-temperature annealing furnace carry out high temperature annealing, heat-up rate with 500～600 ℃/h is heated rapidly to 500～600 ℃ with three rolled samples, at pure N ₂Protective atmosphere is insulation 1～2h down; Remove Mg (OH) ₂After decomposing the water that produces, protective atmosphere changes 75～100%H into ₂+ 0%～25%N ₂, the heat-up rate with 150～300 ℃/h is rapidly heated 800～900 ℃ again, and insulation 1～2h makes three rolled samples generate the recrystallized structure that contains a small amount of Gauss's nucleus; Heat-up rate with≤20 ℃/h is heated to 1150～1200 ℃ then, at pure H ₂Protective atmosphere is insulation 20～40h down; The temperature-fall period protective atmosphere changes 75～100%H into ₂+ 0%～25%%N ₂, cool to 700 ℃ with the speed of≤20 ℃/h; Protective atmosphere changes pure N into ₂Come out of the stove for＜300 ℃.