High-aluminum thin electrical steel and producing method thereof

A production method and thin gauge technology, applied in the production field of electrical steel products, can solve the problems of difficult control of plate surface quality, no mention of high Al thin strip production technology, and decreased cold workability.

Active Publication Date: 2014-06-25
ANGANG STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the wide application of frequency conversion energy-saving technology, in order to save energy and protect the environment, it is required to make the motor more efficient and miniaturized. Under the control of the motor, the speed of the motor increases from thousands of revolutions per minute to tens of thousands of revolutions per minute. The higher the frequency, the more serious the iron loss of the non-oriented silicon steel core increases. Increasing the resistivity and reducing the strip thickness are effective means to reduce iron loss. , as the silicon content increases, the resistivity and magnetic permeability increase, and the iron loss decreases, but when the silicon content reaches 3.3%, the cold workability of the steel grade drops sharply; as the product

Method used

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  • High-aluminum thin electrical steel and producing method thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0014] Example 1: Chemical composition weight percentage: C: 0.0025%, Si: 1.5%, Mn: 0.20%, P: 0.008%, S: 0.0015%, Als: 1.75%, N: 0.0021%, Ti: 0.001%, Nb : 0.0015%, V: 0.0017%;

[0015] The process steps are as follows:

[0016] a) Smelting: Converter smelting, RH vacuum refining treatment, control alloy element composition;

[0017] b) Continuous casting: Continuous casting is used to cast molten steel into steel slabs, the pouring temperature is 1560°C, and the casting speed is 0.9m / min;

[0018] c) Hot rolling: the steel billet is heated at a low temperature, and the temperature is slowly raised in the temperature range of 600~1000°C. The final temperature is controlled at 1050°C, and a weak reducing atmosphere is maintained in the furnace. The heating time is controlled at 180 minutes. ℃, finishing temperature 880℃, crimping temperature 700℃;

[0019] d) Cold rolling: cold rolling adopts warm rolling, the temperature is 60°C, and the thickness of the hot rolled plate is ...

Embodiment 2

[0022] Example 2: Chemical composition weight percentage: C: 0.0026%, Si: 1.62%, Mn: 0.25%, P: 0.007%, S: 0.0013%, Als: 1.68%, N: 0.0020%, Ti: 0.001%, Nb : 0.0016%, V: 0.0019%;

[0023] a) Smelting: Converter smelting, RH vacuum refining treatment, control alloy element composition;

[0024] b) Continuous casting: Continuous casting is used to cast molten steel into steel slabs, the pouring temperature is 1580°C, and the casting speed is 1.0m / min;

[0025] c) Hot rolling: the steel billet is heated at a low temperature, and the temperature is slowly raised in the temperature range of 600~1000°C. The final temperature is controlled at 1100°C, and a weak reducing atmosphere is maintained in the furnace. The heating time is controlled at 200 minutes. ℃, finishing temperature 885℃, crimping temperature 705℃;

[0026] d) Cold rolling: cold rolling adopts warm rolling, the temperature is 85 ℃, and the thickness of the hot rolled plate is 0.25mm;

[0027] e) Normalization: picklin...

Embodiment 3

[0029] Example 3: Chemical composition weight percentage: C: 0.0028%, Si: 1.8%, Mn: 0.22%, P: 0.007%, S: 0.0015%, Als: 1.55%, N: 0.0020%, Ti: 0.001%, Nb : 0.0013%, V: 0.0018%;

[0030] a) Smelting: Converter smelting, RH vacuum refining treatment, control alloy element composition;

[0031] b) Continuous casting: Continuous casting is used to cast molten steel into steel slabs, the pouring temperature is 1585°C, and the casting speed is 1.1m / min;

[0032] c) Hot rolling: the steel billet is heated at a low temperature, and the temperature is slowly raised in the temperature range of 600~1000°C. The final temperature is controlled at 1150°C, and a weak reducing atmosphere is maintained in the furnace. The heating time is controlled at 220 minutes. ℃, finishing temperature 900℃, crimping temperature 715℃;

[0033] d) Cold rolling: cold rolling adopts warm rolling, the temperature is 100 ℃, and the thickness of the hot rolled plate is 0.30mm;

[0034] e) Normalization: picklin...

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Abstract

The invention provides high-aluminum thin electrical steel and a producing method thereof. The steel comprises following chemical components by weight: not more than 0.0030% of C, 1.5-2.0% of Si, 0.10-0.30% of Mn, not more than 0.008% of P, not more than 0.0020% of S, not more than 0.0025% of N, 1.5-2.0% of Als, not more than 0.001% of Ti, not more than 0.0020% of Nb and not more than 0.0020% of V, with the balance being Fe and other unavoidable residual elements. The producing method includes smelting, continuous casting, hot rolling, normalizing, cold rolling and annealing. By high-aluminum alloying, the sensitivity of the steel in hot conditions is reduced and lattice deformation is relieved, thus facilitating stability of the product producing process. The Al element increases the specific resistance, allows the (100) component to be increased and the (111) component to be reduced, reduces the iron loss and achieves high silicon effects. The plate shape is controlled by rolling with heat and a secondary cold rolling method. The electrical steel and the producing method are suitable for producing cold-rolled non-oriented silicon steel thin strips having a thickness of 0.2-0.3 mm, and meet the technical requirements of frequency conversion.

Description

technical field [0001] The invention belongs to the technical field of production of electrical steel products, in particular to a production method of high-aluminum thin-gauge cold-rolled non-oriented silicon steel. Background technique [0002] With the wide application of frequency conversion energy-saving technology, in order to save energy and protect the environment, it is required to make the motor more efficient and miniaturized. Under the control of the motor, the speed of the motor increases from thousands of revolutions per minute to tens of thousands of revolutions per minute. The higher the frequency, the more serious the iron loss of the non-oriented silicon steel core increases. Increasing the resistivity and reducing the strip thickness are effective means to reduce iron loss. , as the silicon content increases, the resistivity and magnetic permeability increase, and the iron loss decreases, but when the silicon content reaches 3.3%, the cold workability of t...

Claims

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Application Information

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IPC IPC(8): C22C38/14C22C38/12C22C38/06C21D8/12
Inventor 高振宇陈春梅张智义金文旭罗理李文权李元华张仁波李亚东刘文鹏
Owner ANGANG STEEL CO LTD
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