A manufacturing method of non-oriented silicon steel sheet based on twin-roll strip continuous casting technology

A twin-roll thin strip continuous casting and manufacturing method technology, applied in the field of metallurgy, can solve problems such as transverse cracks on the surface of the cast strip, affecting the rolling process, and difficulties in direct cold rolling, so as to improve the magnetic induction intensity, simplify the manufacturing process, and save Effect of hot rolling process

Active Publication Date: 2011-12-14
NORTHEASTERN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Moreover, the cast strip has many crystal defects, poor plasticity and shape, and it is difficult to directly cold-roll it.
The patent of the twin-roll thin strip continuous casting non-oriented silicon steel of Japanese Patent Application Hei 6-31395 discloses a method of applying about 100Kg / mm on the crystallization roll. 2 The method of improving the toughness of the cast strip by pressure, although this method reduces the crystal defects of the cast strip and improves the toughness, but because the temperature of the cast strip just solidified is above 1400°C, the strength is low and the plasticity is poor, and the increase in the casting and rolling force is easy to cause the casting Transverse cracks appear on the strip surface, affecting the subsequent rolling process
Chinese patent 02112304.7 discloses a method for producing non-oriented silicon steel that carries out on-line continuous hot rolling of the cast strip after twin-roll continuous casting. Although the method can improve the toughness of the cast strip and the magnetic properties of the finished plate, the With defects such as flash, edge thickening, and edge cracks, it is very difficult to carry out on-line continuous hot rolling of cast strips, and the shape, thickness, and surface quality of hot-rolled plates are not easy to control

Method used

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  • A manufacturing method of non-oriented silicon steel sheet based on twin-roll strip continuous casting technology
  • A manufacturing method of non-oriented silicon steel sheet based on twin-roll strip continuous casting technology
  • A manufacturing method of non-oriented silicon steel sheet based on twin-roll strip continuous casting technology

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Embodiment 1

[0029] Smelted by intermediate frequency vacuum induction furnace, the composition is: C 0.0037wt%, Si 3.23wt%, Mn 0.22wt%, P 0.006wt%, S 0.0028wt%, N 0.0033wt%, Al 0.71wt%, the balance is Fe and impurities Control the temperature of the molten steel at 1650°C and pour it into the tundish. The molten steel flows through the tundish into the cavity formed by two crystallization rollers rotating at a line speed of 40m / min and side sealing plates to form a molten pool. The molten steel and crystallization Condensation occurs when the roll contacts, and a cast strip with a thickness of 2.0mm and a width of 250mm is exported from the crystallization roll. The cast strip is coiled after being trimmed online, and then the cast strip is cooled to 400°C in the air for warm rolling. The deformation of warm rolling is 10%. After pickling, the cast coils after warm rolling are cold-rolled to obtain a cold-rolled sheet with a thickness of 0.50 mm. After layering, a non-oriented silicon s...

Embodiment 2

[0032] Smelted by intermediate frequency vacuum induction furnace, the composition is: C 0.002wt%, Si 3.5wt%, Mn 0.3wt%, P 0.009wt%, S 0.0048wt%, N 0.0029wt%, Al 0.2wt%, the balance is Fe and impurities Control the temperature of the molten steel at 1610°C and pour it into the tundish. The molten steel flows through the tundish into the cavity formed by two crystallization rollers rotating at a line speed of 60m / min and side sealing plates to form a molten pool. The molten steel and crystallization Condensation occurs when the roll contacts, and the cast strip with a thickness of 1.0mm and a width of 100mm is exported from the crystallization roll. The cast strip is coiled after being trimmed online, and then the cast strip is cooled to 600°C in the air and then warm rolled. The deformation of warm rolling is 30%. After pickling, the cast coils after warm rolling are cold-rolled to obtain a cold-rolled sheet with a thickness of 0.50 mm. After layering, a non-oriented silicon...

Embodiment 3

[0034] Smelted by intermediate frequency vacuum induction furnace, the composition is: C 0.01wt%, Si 2.9wt%, Mn 0.1wt%, P 0.018wt%, S 0.0035wt%, N 0.0044wt%, Al 1.0wt%, the balance is Fe and impurities Control the temperature of the molten steel at 1720°C and pour it into the tundish. The molten steel flows through the tundish into the cavity formed by two crystallization rollers rotating at a linear speed of 20m / min and side sealing plates to form a molten pool. The molten steel and crystallization Condensation occurs in contact with the rollers, and a cast strip with a thickness of 5.0mm and a width of 2000mm is exported from the crystallization roller. The rolling deformation is 5%. After pickling, cold-roll the warm-rolled cast coil to obtain a 0.50mm thick cold-rolled sheet, and then anneal the cold-rolled sheet at 1150°C for 0.5min. After layering, a non-oriented silicon steel plate product is obtained. The horizontal and vertical average magnetic induction intensity ...

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Abstract

The invention relates to the technical field of metallurgical technology, in particular to a method for manufacturing a non-oriented silicon steel plate based on a twin-roll thin strip continuous casting technology. The method comprises the steps of: smelting molten steel with the silicon content of 2.9-3.5wt% at a temperature of 1610-1720 DEG C; pouring the molten steel in a tundish, wherein themolten steel flows into a cavity formed by two crystallizing rolls which rotate at a linear velocity of 20-60m / min and a side-closing plate through the tundish, and is in contact with the crystallizing rolls to generate a solidified shell, and a cast band is led out of the crystallizing rolls; obtaining a cast band coil after the cast band is subjected to the online side-shearing treatment and coiling; warm-rolling the cast band coil after the cast band coil is cooled down to 200-600 DEG C in air, wherein the amount of deformation in warm-rolling is 5-30 percent; and cold-rolling, annealing and coating the warm-rolled cast band coil to prepare a non-oriented silicon steel plate. The method provided by the invention has the advantages that the process is simple and compact, energy is saved, consumption is reduced, microscopic structures of the cast band can be effectively controlled, the drawability, the plate shape and the surface quality of the cast band can be improved, and the magnetic induction intensity of the non-oriented silicon steel plate can be effectively increased.

Description

technical field [0001] The invention relates to the field of metallurgy technology, in particular to a method for manufacturing a non-oriented silicon steel plate based on twin-roll strip continuous casting technology. Background technique [0002] Non-oriented silicon steel sheets are mainly used as iron core materials for various motors. In order to reduce the energy loss when the motor is running, it is necessary to further improve the magnetic properties of the non-oriented silicon steel sheet. Among them, the magnetic induction intensity is one of the key indicators of the magnetic properties of the non-oriented silicon steel sheet. Improving the magnetic induction intensity of the non-oriented silicon steel plate can reduce the excitation current of the iron core, reduce the iron loss and copper loss, and save electric energy. When the motor power is constant, increasing the magnetic induction intensity can increase the maximum magnetic induction intensity of the desi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B22D11/06B22D11/18C21D8/12
Inventor 刘海涛刘振宇孙宇曹光明李成刚邱以清赵文柱吴迪王国栋
Owner NORTHEASTERN UNIV
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