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Low alloy structural steel with low cost and thick specification and production method thereof

A production method and technology for structural steel, applied in the field of steel production, can solve the problems of poor head shape control, irregular shape of strip steel head, large cooling rate, etc., achieve stable and good performance indicators, and improve cold forming Performance, effect of grain size refinement

Active Publication Date: 2014-07-09
武汉钢铁有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] 2) The problem of mixed crystal phenomenon and cold bending cracking, due to the use of low temperature furnace and low temperature rolling, F3 (Finish Mill, English free translation of finish rolling, where F3 refers to the third hot rolling mill, F4 refers to the fourth hot rolling mill) Or the lower temperature and reduction rate of the F4 pass will lead to the occurrence of mixed crystal phenomenon in the finished strip steel, which will affect the control of the organization and ultimately affect the customer's cold bending performance
[0007] 3) The coil shape problem mainly refers to the problem of the overflow edge of the head tower and the head. There are two reasons: ① Due to the low-temperature final rolling and low-temperature coiling, the cooling rate is large and uneven, and the shape of the head is poorly controlled, so it is easy to The head tower shape is generated; ②The shape of the strip head is irregular and the temperature is low at the same time, which affects the detection of the strip head tracking signal, affects the action of the head side guide plate and the action of the pinch roller, resulting in a head tower shape and the head overflow edge; such problems can easily lead to damage and cutting of steel coils during hoisting, serious scrapping of the entire coil, affecting the yield of products, not only increasing labor costs, but also affecting logistics delivery and contract fulfillment, which is not conducive to products Increased competitiveness, see figure 2 Roll-shaped schematic diagram of the Q345B comparative example

Method used

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  • Low alloy structural steel with low cost and thick specification and production method thereof
  • Low alloy structural steel with low cost and thick specification and production method thereof
  • Low alloy structural steel with low cost and thick specification and production method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] The low-cost thick-gauge low-alloy structural steel produced in this embodiment is made of the following components in weight percentage: C: 0.17%, Si: 0.21%, Mn: 0.35%, P: 0.02%, S: 0.0062%, N : 0.0053%, the rest is Fe and unavoidable impurities, the thickness is 4.0mm.

[0031] A method for producing low-cost thick-gauge low-alloy structural steel, comprising the following steps:

[0032] 1) Smelting, refining outside the furnace and continuous casting into a billet, the thickness of the continuous casting billet is 70mm;

[0033] 2) Soak the cast slab, and control the temperature of the cast slab out of the furnace at 1130°C;

[0034] 3) After the slab is released from the furnace, it is descaled under high pressure and then finished rolling. The thickness of the finished product is 6mm, the sum of the reduction ratio of F1+F2 is 105%, and the cooling water volume of the rolls of F1 and F2 is 480m 3 / hour, the F4 frame is assumed to be false, and the exit temperat...

Embodiment 2

[0037] The low-cost thick-gauge low-alloy structural steel produced in this embodiment is made of the following components in weight percentage: C: 0.19%, Si: 0.17%, Mn: 0.45%, P: 0.018%, S: 0.008%, N : 0.006%, the rest is Fe and unavoidable impurities, the thickness is 7.0mm.

[0038] A method for producing low-cost thick-gauge low-alloy structural steel, comprising the following steps:

[0039] 1) Smelting, refining outside the furnace and continuous casting into a billet, the thickness of the continuous casting billet is 70mm;

[0040] 2) Soak the cast slab, and control the temperature of the cast slab to be 1100°C;

[0041] 3) After the slab is released from the furnace, it is descaled under high pressure and then finished rolling. The thickness of the finished product is 4mm, the sum of the reduction ratio of F1+F2 is 102%, and the cooling water volume of the rolls of F1 and F2 is 488m 3 / hour, the F3 frame is assumed to be false, and the exit temperature of the finish...

Embodiment 3

[0044] The low-cost thick-gauge low-alloy structural steel produced in this embodiment is made of the following components in weight percentage: C: 0.20%, Si: 0.15%, Mn: 0.5%, P: 0.023%, S: 0.01%, N : 0.0051%, the rest is Fe and unavoidable impurities, the thickness is 6.0mm.

[0045] A method for producing low-cost thick-gauge low-alloy structural steel, comprising the following steps:

[0046] 1) Smelting, refining outside the furnace and continuous casting into a billet, the thickness of the continuous casting billet is 70mm;

[0047] 2) Soak the cast slab, and control the temperature of the cast slab out of the furnace at 1120°C;

[0048] 3) After the slab is released from the furnace, it is descaled under high pressure and then finished rolling. The thickness of the finished product is 4mm, the sum of the reduction ratio of F1+F2 is 104%, and the cooling water volume of the rolls of F1 and F2 is 434m 3 / hour, the F3 frame is assumed to be false, and the exit temperatur...

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Abstract

The invention discloses low alloy structural steel with low cost and thick specification. The low alloy structural steel comprises the following components by weight percent: 0.17%-0.20% of C, 0.15%-0.30% of Si, 0.35%-0.55% of Mn, less than or equal to 0.025% of P, less than or equal to 0.01% of S, less than or equal to 0.008% of N, and the rest of Fe and inevitable impurities. A production method of the structural steel comprises the following steps: (1) continuous casting to obtain billet; (2) soaking the cast billet; (3) high-pressure descaling, and finish rolling, wherein the sum of reduction rates of F1 and F2 is greater than or equal to 98% and is less than or equal to 105%, and F1 and F2 cooling water amount is 70%-80% of normal water amount, F3 or F4 is nominal, and the outlet temperature is 840-870 DEG C; (4) setting the laminar flow cooling speed to be 40-83 DEG C / s, the coiling temperature to be 540-570 DEG C, and the head coiling temperature to be 580-600 DEG C; (5) cooling. The production method disclosed by the invention basically eliminates phenomena such as mixed crystal and cold bending cracking, has good coiling shape, and is suitable for being widely applied to the field of steel production.

Description

technical field [0001] The invention relates to the technical field of iron and steel production, in particular to a low-cost thick-gauge low-alloy structural steel and a production method thereof. Background technique [0002] At present, the thin slab continuous casting and rolling production of domestic large-scale iron and steel enterprises mostly adopts the CSP (Compact Strip Production, compact strip steel production line) production line, which generally includes two 150-ton converters, two LF (Ladle Refining Furnace, ladle refining furnaces) ) refining furnace, one RH refining furnace, twin-strand thin slab continuous casting line, tunnel heating furnace and seven-stand hot continuous rolling mill. The maximum slab width produced by the casting machine is 1680mm, and the thickness is 70mm and 90mm. The casting machine has the function of casting and rolling with a liquid core. The designed working speed of the machine can reach 5-6m / min. The latest domestic CSP pro...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C38/04C21D8/02
Inventor 谭佳梅陈良张永锟李国全高智刘义滔钱龙鲁娟陈波
Owner 武汉钢铁有限公司
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