KR19980044185A - Magnesia-Spanel Fireproof Material with Excellent Volumetric Stability - Google Patents

Abstract

The present invention relates to a magnesia-spinnel refractories, to which aluminum titanate (Al ₂ TiO ₅ ) powder is added to a refractory material composed of magnesia and MgO-rich spinel at high temperature without deterioration of corrosion resistance. The purpose of the present invention is to provide a magnesia-spinnel refractories with improved volume stability.

The present invention for achieving the above object is a magnesia-spinnel refractories, the weight ratio of magnesia surplus spinnel and magnesia is made of a refractory material of 35: 65-40: 60; And 5-15% by weight of aluminum titanate powder relative to the refractory material, and the magnesia surplus spinel has a weight ratio of magnesia and alumina of 50: 50-70: 30, and particles of the aluminum titanate powder. The gist of the magnesia-spinnel refractories excellent in volume stability characterized by the size being 1.0 mm or less is made into the summary.

Description

Magnesia-spinnel refractories with excellent volume stability

The present invention relates to a magnesia-spinnel refractories used as internal refractories for tundish, and more particularly to a magnesia-spinnel refractories having excellent volume stability at high temperatures.

Magnesia-spinnel refractories (bricks) have been developed to solve the problem of magnesia-chromiac refractory bricks, which have been mainly used as interior refractories for cement rotary kilns. In other words, it was developed as an alternative material to solve the environmental problems caused by elution of the chromium component contained in the magnesia-chromiatrile firebrick. Representative examples of such alternative material development include Japanese Patent Application Laid-Open Nos. 6-100357, 6-116014, 7-187756, and 7-61857. Much of this research has led to the mainstream of magnesia-spinnel refractory bricks for internal refractories for cement rotary kilns.

However, the magnesia-spinnel refractory brick is similar to that of the basic refractory material, and although the inclusion of alumina and the like contained in the steel can be minimized, the coefficient of volume expansion at high temperature is high, so that the volume stability is lowered compared to the acid neutral refractory material. Magnesia-spinnel refractory bricks are not suitable for use as internal refractories for steelmaking or tundish. Therefore, in order to utilize the magnesia-spinnel refractory brick as a refractory for steelmaking and tundish, the improvement of the volume stability of the magnesia-spinnel refractory brick is indispensable.

The present inventors have repeatedly studied and experimented to apply the magnesia-spinnel refractories to tundish, and the present invention was proposed based on the results, and the present invention is magnesia and magnesia surplus spinel (MgO-rich Spinel). By adding aluminum titanate (Al ₂ TiO ₅ ) powder to the refractory material, the magnesia-spinnel refractory material having improved volume stability at high temperature without deterioration of corrosion resistance is provided.

The present invention is a magnesia-spinnel refractory material, the weight ratio of magnesia surplus spinel and magnesia is composed of 35: 65-40: 60 of the refractory material: and 5-15% by weight of aluminum titanate powder compared to the refractory material , The magnesia surplus spinnel is a weight ratio of magnesia and alumina is 50: 50-70: 30, and the particle size of the aluminum titanate powder is excellent magnesia-spinnel refractories, characterized in that the particle size is 1.0mm or less It is about.

Hereinafter, the present invention will be described in more detail.

In general, the magnesia surplus spinel clinker has a spinichimetry spinel (magnesia: alumina ratio of 28:72) in a weight ratio around a grain composed of magnesia, and due to the difference in thermal expansion rate, It shows a microstructure in which very fine gaps are formed between spinnels. Due to these characteristics, the use of magnesia surplus spinel clinker for basic refractory can prevent deterioration of spalling resistance.

For this reason, the present invention applies a magnesia surplus spinel to the magnesia-spinnel refractories used in continuous casting tundish, etc., the ratio of magnesia and alumina should be 50: 50-70: 30 in weight ratio.

This is because when the magnesia content in the composition of the magnesia surplus spinel is 50 or less, the alumina component is excessive and the reactivity with CaO in the slag is increased, so that the improvement of the corrosion resistance of the magnesia-spinnel fireproof material is weak. In addition, when the content of magnesia is 70 or more, the use effect of the magnesia surplus spinel is not exerted close to the intrinsic characteristics of magnesia, which is poor in invasion resistance.

In the present invention, the content of magnesia surplus spinel and magnesia defined as above is limited to 35: 65-40: 60 by weight ratio.

This is because when the content of magnesia surplus spinnel is less than 35 in weight ratio, the use effect of magnesia surplus spinnel is not exerted in close proximity to the intrinsic property of magnesia, which is weak in invasion resistance, and the content of magnesia surplus spinnel in terms of weight ratio If it is 40 or more, the component of alumina is excessive and the reactivity with CaO in slag is increased, and the effect of improving the corrosion resistance of magnesia-spinnel fire-resistant brick is weak.

The refractory material for magnesia and magnesia surplus spinnel used in the present invention is not particularly limited, but in order to minimize the influence of impurities, the purity is preferably 95% or more.

In the present invention, 5-15% by weight of aluminum titanate powder having a particle size of 1.0 mm or less is added to the refractory material composed of the magnesia surplus spinel and magnesia.

The aluminum titanate, together with cordierite (2MgO · 2Al ₂ O ₃ · 2SiO ₂ ) and β-spodumene (Li ₂ O ₃ · Al ₂ O ₃ · 4SiO ₂ ), has the lowest coefficient of thermal expansion in ceramics. Considering that the melting point of cordierite and β-spodumene is 1470 ° C and 1430 ° C, while the melting point of aluminum titanate is 1860 ° C, the temperature of steelmaking and tundish operations is 1500-1700 ° C. Aluminum titanate has the advantage of not lowering the fire resistance of the refractory. On the other hand, aluminum titanate is one of the disadvantages that the decomposition reaction occurs in the vicinity of 900-1200 ℃, this decomposition reaction is suppressed by the magnesia contained in the magnesia-spinnel refractory of the present invention.

The aluminum titanate powder is limited to a particle size of 1.0 mm or less. The reason is that when the particle size exceeds 1.0 mm, the porosity is increased in the refractory material due to the intrinsic property of aluminum titanate, which exhibits anisotropy of thermal expansion rate. This is because the corrosion resistance of the spinel refractories is lowered.

In addition, the aluminum titanate powder is limited to 5-15% by weight. The reason is that when the addition amount of aluminum titanate powder is less than 15% by weight, the addition amount is small, so that the volume stability of the magnesia-spinnel refractory brick is slightly improved, and when the addition amount of aluminum titanate powder is 5% by weight or more, magnesia-spinning This is because the porosity of the nelly refractory brick is increased to lower the corrosion resistance.

The aluminum titanate powder used in the present invention is not particularly limited, but is preferably 95% or more in order to minimize the influence of impurities.

Hereinafter, the present invention will be described in more detail with reference to Examples.

EXAMPLE

After weighing to the composition shown in Table 1, 2.5% by weight of a phenol resin was added as a binder and molded at a pressure of 900 kg / cm 2. These molded bodies were baked at 1750 ° C. for 8 hours to obtain fireproof materials of Inventive Example (1-3) and Comparative Example (1-8). The porosity, linear expansion at 1500 ° C., erosion index and infiltration index of the obtained refractory materials were obtained, and the results are shown in Table 1 below.

At this time, the linear expansion rate was the hot linear expansion rate to evaluate the volume stability (the smaller the hot linear expansion rate is, the better the volume stability), and the erosion index and the infiltration index are erosion agents. After performing a rotary erosion test under the conditions of 1550 degreeC x 1 hour x erosion excretion x 4 repetitions, it is calculated | required by the relative value at the time of the comparative example (8) once.

TABLE 1

As can be seen in Table 1, the ratio of magnesia to alumina is 50: 50-70: 30, and the ratio of magnesia surplus spinel and magnesia is 35: 65-40: 60 in weight ratio. Inventive Example (1-3) to which 5-15% by weight of aluminum titanate powder having a thickness of 1.0 mm or less was achieved, but Comparative Example (1-8) outside the scope of the present invention had volume stability and corrosion resistance. And the improvement of infiltration resistance was weak or decreased.

As described above, the magnesia-spinnel fireproof brick produced by the present invention has excellent volume stability at high temperature without deteriorating corrosion resistance. In addition, the magnesia-spinnel refractory brick produced by the present invention is basic, so that even if the molten steel and the refractory are in direct contact with each other, the refractory inclusions are hardly contained in the steel. Therefore, there is no need to use the magnesia coating material commonly used in tundish in order to prevent contamination of molten steel by refractory, so that the cost can be greatly reduced when applied to the tundish refractory.

Claims (1)

For magnesia-spinnel refractories, Magnesia surplus spinnel and magnesia weight ratio of 35: 65-40: 60; And 5-15% by weight of aluminum titanate powder relative to the refractory material, The magnesia surplus spinnel has a weight ratio of magnesia and alumina is 50: 50-70: 30, and Magnesia-spinnel refractory material excellent in volume stability, characterized in that the particle size of the aluminum titanate powder is 1.0mm or less.