JPH0584553A - Mold powder for continuously casting steel - Google Patents

Abstract

PURPOSE:To drastically restrain the shift of carbon into molten steel from molten powder in comparison with the time of using the conventional powder and to make continuous casting in the extremely low carbon steel, e.g. <=30ppm carbon content. CONSTITUTION:Into the mold powder containing the ordinary CaO-SiO2-Al2O3 as the base material, tellurium oxide is contained to 0.2-5wt% as TeO2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention has a carbon content of 3
The present invention relates to a mold powder suitable for use in continuous casting of ultra low carbon steel such as 0 ppm or less.

[0002]

2. Description of the Related Art In continuous casting of steel, it prevents oxidation of molten steel in a mold, dissolves and absorbs oxides and sulfides that float or are formed on the molten metal surface, and lubricates between the mold and the slab. Mold powder (hereinafter, also simply referred to as powder) is added to the molten metal surface in the mold for the purpose of maintaining good properties. The conventional mold powder for continuous casting is CaO-SiO ₂ -Al ₂
O ₃ is used as a base material, and alkali metal oxides are added as fluorides or carbonates or CaF ₂ is added to adjust the freezing point and viscosity. Also, carbon as an aggregate
The melting rate of the powder is adjusted by adding. This is because when the powder is used, its melting rate becomes a big problem, and if carbon as an aggregate is not present, the powder will melt rapidly and cannot cover the molten metal surface. In other words, carbon as an aggregate is an essential component for producing powder.

However, in the continuous casting of ultra-low carbon steel, the carbon as the aggregate migrates from the molten powder to the slab during the casting, which causes a problem that the carbon concentration in the molten steel increases. There is. Measures to prevent the transition of molten carbon from aggregate powder to molten steel as an aggregate have not yet been established, and ultra-low carbon powder partially added with expensive nitrides such as BN as a substitute for carbon is used. In order to prevent the increase of carbon concentration in molten steel, it is inevitable to take measures (for example, iron and steel 64th (1978)
No. 10, pp. 1548-1557).

[0004]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a mold powder for continuous casting that does not increase the carbon concentration in molten steel when continuously casting ultra low carbon steel.

[0005]

The present invention was made based on the new finding that the transfer of carbon into molten steel is suppressed by adding an element having a property of accumulating at the interface to mold powder. The gist thereof is "a mold powder for continuous casting of steel characterized by containing tellurium oxide as TeO _{2 in an amount} of 0.2 to 5 wt%."

The element having a property of accumulating at the interface is an element having a property of condensing at a different phase interface (interface) such as a slag / metal interface, a gas / metal interface, and the like. , Tellurium (Te), sulfur (S), oxygen (O), selenium (Se), and the like. However, O and S
Is an element that must be removed as an impurity in the production of steel, and Se is highly toxic. Therefore, Te is selected as an element that has the property of accumulating at the interface, and Te oxides (TeO, TeO ₂ , TeO) are used as a compounding raw material during powder production
₃ ) or complex oxides (TeO ・ SiO ₂ , 2TeO ・ SiO ₂ , 4
TeO ・ 3SiO ₂ etc.) is added to adjust the concentration of Te in the powder to be 0.2 to 5 wt% in terms of tellurium dioxide (TeO ₂ ).

If the particle size of the Te oxide or complex oxide to be added is too large, it cannot be uniformly mixed with other compounding raw materials, so it is desirable that the particle size be 50 μm or less.

The base powder to which tellurium oxide is added is usually used as a powder for ultra-low carbon steel, for example, CaO-SiO ₂ -Al ₂ O ₃ -based powder or CaO-SiO ₂ is used as a base powder. You can use the powder.

[0009]

[Function] The addition of an element having the property of accumulating at the interface to the mold powder suppresses the transfer of carbon from the molten powder to the molten steel because the above-mentioned elements added to the powder are present at the interface between the molten powder and the molten steel. It is considered that this is due to the fact that the area where the carbon in the molten powder and the molten steel come into contact with each other is reduced.

FIG. 1 shows the carbon concentration in molten iron when TeO ₂ was added to the conventional powder (Powder A in Table 1) and the TeO ₂ content in the powder was changed to 6 wt%. .. This is the result of melting electrolytic iron using a Tammann furnace in an Ar atmosphere and adding the powder from the top of the molten iron at a temperature of 1580 ° C to determine the carbon concentration in the molten iron. The composition is% by weight, C: 0.0016%,
Si: 0.0016%, Mn: 0.0011%, P: 0.0014%, S: 0.00
21%, Cu: 0.0001%, O: 0.032%, N: 0.0012%. Since the upper limit of carbon concentration of ultra low carbon steel is 30ppm,
This figure shows that TeO ₂ needs to be added to the powder so that the TeO ₂ content of the powder is 0.2 wt% or more. Further, even if TeO ₂ is contained in an amount of more than 5 wt%, the carbon concentration in the molten steel does not change and the effect is not increased.

On the other hand, the content of TeO _{2 in} the powder was set to 5%, and the Te concentration in the molten steel when this powder was used at a powder consumption of 0.4 kg / ton, the Te in the powder was all transferred to the molten steel. When calculated as, 0.4 × 10 ^-3 × 0.05 × (12
7.6 / 159.6) x 100 = 0.0016 (wt%). Assuming that Te and S are equivalent, the upper limit of S concentration in ultra low carbon steel is
Since it is 0.006 wt%, it can be said that the Te concentration in the ultra-low carbon steel is within the allowable range.

For the above reasons, the TeO ₂ content in the powder is 0.2 to 5 wt as a powder for continuous casting of ultra-low carbon steel.
It is determined that the appropriate value is%. As the TeO ₂ source, as described above, TeO, TeO ₂ , TeO ₃ , TeO.SiO ₂ , 2T
Examples thereof include Te oxides such as eO.SiO ₂ and 4TeO / 3SiO ₂ and Te complex oxides.

[0013]

[Table 1]

[0014]

[Example] In a 1-point straightening continuous casting machine with a bending radius of 10 m, molten steel shown in Table 2 (before casting, carbon concentration 19 ppm) was cast at a casting speed of 2 m / min in a mold with a slab size of 1600 mm x 250 mm, as a powder. Tests were conducted using the conventional powder A shown in Table 1 and the powder B of the present invention containing 2 wt% of TeO ₂ based on this powder.

All casting operations were successful without any accident such as breakout.

As a result of the test, as shown in Table 2, when the conventional powder A was used, the carbon content of the slab was 105 ppm.
However, when the powder B of the present invention was used, it was 25 ppm (0.0025 wt%), which was significantly lower than that when the conventional powder A was used.

[0017]

[Table 2]

[0018]

EFFECTS OF THE INVENTION The mold powder of the present invention is a conventional mold powder containing carbon as an aggregate and a small amount of TeO _2, and can significantly suppress the transfer of carbon from molten powder to molten steel. Suitable as powder for continuous casting of ultra low carbon steel.

[Brief description of drawings]

FIG. 1 is a diagram showing the relationship between the TeO ₂ content of powder and the carbon concentration in molten steel.

Claims (1)

[Claims] 1. A mold powder for continuous casting of steel, characterized by containing tellurium oxide as TeO _{2 in an amount} of 0.2 to 5 wt%.