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Method for producing steel

A manufacturing method and steel technology, applied in the field of steel manufacturing, can solve problems such as small cracks, and achieve the effects of improving quality, reducing the load of tape polishing, and improving quality

Active Publication Date: 2014-02-26
TOKYO STAINLESS GRINDING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition, there may be formed on the surface of the slab a layer in which the mold slag is entangled due to the inclusion of the mold slag thrown into the mold during continuous casting, etc. Surface defects such as scratches, indentations, and small cracks of several hundred microns are formed

Method used

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  • Method for producing steel
  • Method for producing steel
  • Method for producing steel

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0118] The inventors of the present invention trimmed a stainless steel slab before rolling using the surface reducing device 1 described above.

[0119] Hereinafter, it demonstrates in more detail using an Example.

[0120] A test sample having a thickness of 50 mm and a square of 500 mm was extracted from a SUS304 slab manufactured by known continuous casting. The test surface is a single side of 500mm square, and the surface is covered by black oxide scale formed when molten steel solidifies. The height of the unevenness of the vibration ripples existing on the surface is about 0.1 mm to 0.2 mm.

[0121] use Figure 1 ~ Figure 3 The surface reduction grinding head of the disclosed shape was subjected to electrolytic abrasive surface reduction treatment on the test surface of the sample. The conditions of this surface reducing grinder are as follows.

[0122] Main items of surface reducing grinding head

[0123] ·Surface reducing grinding head diameter 250mm, electrod...

Embodiment 1a

[0137] In Example 1a, the average removal amount of the black leather surface caused by electrolytic abrasive surface reduction treatment was 90 μm.

[0138] In addition, in Example 1a, the Ra (center line average roughness) of the slab surface after the treatment was 0.21 μm.

[0139] In Example 1a, there are depressions and indentations caused by casting in the processed slab, but the oxide scale at the bottom of these defects is removed by the high-current pulse electrolysis unique to this technology, and it has a metallic luster. In addition, the bottoms of pit-like defects that inevitably exist on the surface of the slab are also descaled.

[0140] After performing hot rolling using the slab thus processed, a stainless steel final product (steel material) can be produced by a known method.

Embodiment 1b

[0142] In Example 1b, the average removal amount of the black leather surface caused by electrolytic abrasive surface reduction treatment was 330 μm.

[0143] In addition, in Example 1b, the Ra (center line average roughness) of the surface of the slab after the treatment was 0.20 μm.

[0144] In Example 1b, substantially no surface defects observed on the surface of the slab of Example 1a were found on the surface of the slab after the treatment.

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Abstract

Provided is a method for producing steel. Molten steel is poured, together with mold powder, into a mold, and the molten steel is gradually solidified in the mold. A slab molded while being solidified in the mold is continuously taken out of the mold. The slab taken out of the mold is subjected to electrolytic grinding reducing, for example, using a surface-reducing head in which an elastic grindstone and an electrode are disposed. A layer involving the powder and flaws are removed from the surface of the slab by the electrolytic grinding reducing. The slab subjected to the electrolytic grinding reducing is subjected to hot rolling, annealing, shot blasting / descaling, cold rolling, annealing, pickling, and the like as appropriate to thereby produce steel.

Description

technical field [0001] The present invention relates to a method for manufacturing steel, and more specifically, relates to a method for manufacturing steel by hot-rolling a slab. Background technique [0002] In recent years, in addition to the blooming method in which steel ingots are initially rolled to form slabs such as slabs, and the formed slabs are rolled to produce steel products, a continuous casting method is becoming popular: molten steel is injected into the mold, and the steel is cast from the mold. A solidified billet is continuously drawn to form a billet such as a slab, and the billet is rolled to manufacture a steel material. When using this continuous casting method to form steel slabs such as slabs, billets (billets), blooms (blooms), and shaped billets, in order to improve the lubricity of the mold and the surface of molten steel, mold powder (hereinafter referred to as slag) while casting. [0003] The steel slab produced by the blooming method or the...

Claims

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Application Information

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IPC IPC(8): C25F3/00B22D11/00B23H5/08C25F3/24C25F7/00
CPCB23H5/08B22D11/16C25F1/06B22D11/12
Inventor 河西寿雄荒川基彦日下部繁
Owner TOKYO STAINLESS GRINDING