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Method for manufacturing low-carbon TWIP steel through AOD (argon oxygen decarburization) furnace

A production method and argon-oxygen furnace technology are applied in the smelting and production field of low-carbon TWIP steel argon-oxygen furnace (AOD), which can solve the problems of long production time, high alloy content and high energy consumption, and achieve easy operation, simple production process, Inexpensive effect

Active Publication Date: 2013-12-25
UNIV OF SCI & TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Induction furnaces and vacuum induction furnaces generally have small capacity, long production time, high energy consumption and low production efficiency
So far, there are still many problems in low-carbon TWIP high-efficiency and low-cost large-scale smelting production
[0005] One of the problems is that the carbon content of low-carbon TWIP steel is low, and the carbon content of the product is less than or equal to 0.06%, while the content of Mn, Si and Al is relatively high. Considering the problems of adding Mn, Si and other alloys to increase carbon and refractory materials in the later stage of smelting, etc. , it is necessary to reduce the carbon in the steel to less than 0.03% before alloying; the second problem is that the TWIP steel has a high alloy content, and a large amount of Mn, Si, Al and other alloys need to be added in the later stage of smelting, and the temperature drop is serious. During the smelting process, only The oxidation energy of carbon is insufficient; the third problem is that the TWIP steel alloy content is relatively high, especially the metal aluminum content is relatively high, and it is easy to cause silicon increase in molten steel when the molten steel is aluminum-alloyed, and the composition control is more difficult

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0048] Low-carbon TWIP steel was smelted in an 8-ton argon-oxygen furnace (AOD). Add 200 kg of lime into the furnace before adding molten steel, and add 5.9 tons of molten steel obtained from melting scrap steel in an induction furnace. The composition of molten steel is shown in Table 1.

[0049] Table 1 Argon Oxygen Furnace (AOD) mixed into molten steel composition (mass percentage, %)

[0050] C

mn

P

S

Si

Ni

Cr

Mo

Cu

0.75

0.54

0.013

0.005

0.20

0.06

0.27

0.03

0.09

[0051]Temperature measurement, molten steel temperature is 1471 ℃. According to the composition and temperature of the molten steel, add 25 kg of recarburizer and 75 kg of ferrosilicon. Oxygen blowing and decarburization is adopted with a large oxygen / argon ratio, and the flow rates of oxygen and argon are 500 and 170m respectively 3 / hr.

[0052] During the blowing process, add lime in 2 batches, adding 200 kg each time. ...

example 2

[0071] Low-carbon TWIP steel was smelted in an 8-ton argon-oxygen furnace (AOD). Add 200 kg of lime into the furnace before adding molten steel, and add 6.2 tons of molten steel obtained from melting scrap steel in an induction furnace. The composition of molten steel is shown in Table 1.

[0072] Table 1 Argon Oxygen Furnace (AOD) mixed into molten steel composition (mass percentage, %)

[0073] C

mn

P

S

Si

Ni

Cr

Mo

0.37

0.52

0.009

0.007

0.15

0.02

0.05

0.02

[0074] Temperature measurement, molten steel temperature is 1520 ℃. According to the composition and temperature of the molten steel, add 50 kg of recarburizer and 40 kg of ferrosilicon. Oxygen decarburization with large oxygen / argon ratio, oxygen and argon flow rates are 500 and 150m respectively 3 / hr.

[0075] During the blowing process, add lime in 2 batches, adding 200 kg each time.

[0076] Samples were taken at the end of decarburi...

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Abstract

The invention belongs to the field of metal smelting, and mainly relates to smelting manufacturing technology of low-carbon TWIP steel through an AOD (argon oxygen decarburization) furnace. The smelted TWIP steel comprises the following components in percentage by weight: 0%-0.06% of C, 20%-30% of Mn, 2.0%-3.0% of Si, 2.5%-3.5% of Al, and the balance of Fe. The particular technology procedures comprises the following steps: 1), the AOD furnace is adopted for oxygen decarburization process, once the carbon in the liquid steel is lower than 0.03%, the liquid steel is subject to alloying; 2), after the TWIP steel is subject to manganese alloying, ferrosilicon or / and metal aluminium is adopted to perform reduction reaction on manganese oxide, so that the yield of metal manganese is increased; the oxidation heat of silicon or / and aluminium is adopted to regulate the temperature of the liquid steel and compensate temperature drop of the liquid steel generated by the manganese alloying of the TWIP steel. The method is high in manufacturing efficiency, low in cost, stable in operation and easily-mastered in technology; the main raw material is easily accessible, and no specific requirement is needed; the realization of large-scaled industrialized production is facilitated.

Description

Technical field: [0001] The invention belongs to the field of metal smelting, and mainly relates to low-carbon TWIP steel argon oxygen furnace (AOD) smelting production technology. Background technique: [0002] In 1997, Grassel et al. found that when the manganese content reached 25wt%, the aluminum content exceeded 3wt%, the silicon content was between 2 and 3wt%, and the carbon content was low when the Fe-Mn-Si-Al system TRIP steel was experimentally studied. It has medium tensile strength (about 600Mpa) and extremely high elongation (80%), and the product of its tensile strength and elongation is more than 50000MPa%, twice that of high-strength and toughness TRIP steel. Since the high strength and toughness of this type of alloy comes from the formation of deformation twins during the deformation process, it is named TWIP steel (Twinning Induced Plasticity). Because TWIP steel has many excellent properties, it shows broad application potential in the fields of locomotiv...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21C7/068
CPCY02P10/20
Inventor 刘建华庄昌凌江海涛章平
Owner UNIV OF SCI & TECH BEIJING
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