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Method for controlling band shape of thin band continuously casting

A control method and thin strip technology, applied in the field of thin strip continuous casting strip shape control, can solve the problems of complex crystallization roll structure, uniform solidification of casting strip, and inability to ensure consistent cooling performance, etc., and achieve a reasonable strip shape control method Simple, easy to control, low dependence on external conditions

Active Publication Date: 2009-06-03
BAOSHAN IRON & STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, it is impossible to ensure that the cooling performance along the axial direction of the crystallization roll is consistent, and it will also affect the uniform solidification of the cast strip in the transverse direction
Moreover, the structure of the crystallization roller is very complicated

Method used

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  • Method for controlling band shape of thin band continuously casting
  • Method for controlling band shape of thin band continuously casting
  • Method for controlling band shape of thin band continuously casting

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] see Figure 6a , Figure 6b , The crystallization roller consists of a roller shaft 22, a roller sleeve 21 fixed thereon, and a plug 23 and a plug 24 for sealing the cooling water passage. The cooling water flows in opposite directions along the axial direction of the crystallization roll in the hole-shaped channel in the roll sleeve 21, and the diameter of the water hole near the edge of the crystallization roll and the molten steel contact area 26 is larger than that in the middle, and the increase ratio depends on the thickness of the casting strip. determined, the experience value is R=1.25R 0 , R 0 R is the diameter of the water hole in the middle, and R is the diameter of the water hole in the edge. During the casting operation, more heat will be taken away from the edge of the crystallization roll, and the cooling speed will be faster, so the strip steel will be thinner at this position. In addition, in order to avoid the water tank 25 entering and leaving th...

Embodiment 2

[0032] see Figure 7a , Figure 7b , The crystallization roll is also made up of a roll shaft 22 and a roll sleeve 21 fixed thereon, as well as a plug 23 and a plug 24 for sealing the cooling water channel. Cooling water flows in opposite directions along the axial direction of the crystallization rolls in the hole-shaped channel in the roll sleeve 21, and the water inlet groove 25 is close to the edge of the crystallization rolls. During the casting operation, the cooling speed of the edge of the crystallization rolls is fast, and the strip steel will be relatively thin at this position. Compared with the structure shown in Figure 6, the crystallization roller has a relatively compact structure, and the cooling effect of the crystallization roller is more ideal after reaching thermal equilibrium.

Embodiment 3

[0034] see Figure 8a , Figure 8b , the crystallization roller shown in Figure 8 changes the water inlet groove 25 into an irregular trapezoidal shape on the basis shown in Figure 7, so that the actual application cooling area of ​​the enlarged crystallization roller edge portion gradually increases, and the cooling intensity changes slowly, which can be Make a smooth transition of different heat fluxes on the surface of the crystallization roller, and avoid a large temperature gradient that causes cracks in the casting belt.

[0035] The invention is suitable for casting a metal casting strip with a thickness of 1.5-5mm by using a twin-roller thin strip continuous casting machine.

[0036] The invention increases the cooling strength of the cooling water from both sides of the crystallization roll, changes the heat flux density of the local roll surface of the crystallization roll, improves the quality of the thin strip continuous casting edge, makes the cast strip flat alo...

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Abstract

A method for controlling the shape of conticast thin band and improving the quality of the edge parts of thin band features that the cooling intensity at both end parts of conticasting crystallizing roller is increased to form two local strong cooling regions and the axial cooling intensity of other part on roller is uniform.

Description

(1) Technical field [0001] The invention relates to a thin strip continuous casting strip shape control method. (2) Background technology [0002] A typical example of twin roll strip casting technology is figure 1 As shown, the twin-roll strip continuous casting is to directly pour molten steel into a molten pool surrounded by two relatively rotating crystallization rolls 1a, 1b capable of rapid cooling and side sealing devices 2a, 2b. The rotating circumferential surface is cooled and solidified, and then forms a solidified shell and grows gradually, and then is squeezed together at the smallest gap between the two crystallization rollers 1a and 1b, and finally forms a 1-5mm thick metal thin strip at the outlet 4 The strip 4 is guided by the guide plate 5 and sent to the rolling mill 7 by the pinch roller 6 to be rolled into a thin strip of 0.7-2.5 mm, and then driven by the conveying roller table 8 and cooled by the spray cooling device 9, and finally clamped by the coil...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22D11/16B22D11/112
Inventor 叶长宏方园
Owner BAOSHAN IRON & STEEL CO LTD
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