KR100450438B1 - sealing material found between of lower nozzle & submerged entry nozzle for continuous casting - Google Patents

Abstract

The present invention is the sealing material formed between the lower nozzle and the immersion nozzle to be installed in the ladle or tundish lower in the hot state during the casting of the sealing material to prevent the expansion of the sealing material and to prevent the crimping of the air due to the suppression of air mixing phenomena suppression of steel quality and molten steel It relates to a sealing material to suppress the outflow phenomenon.

According to this configuration, a sliding plate (sliding gate nozzle) is formed under a ladle or a tundish, and a lower nozzle installed below is bound to the immersion nozzle with a sealing material as a boundary. In the sealing material, the sealing material is characterized in that the upper and lower surfaces of the sealing material are integrated with a ceramic heat insulating material having a better heat insulating property than the sealing material.

Description

Sealing material installed between lower nozzle for continuous casting and immersion nozzle {sealing material found between of lower nozzle & submerged entry nozzle for continuous casting}

The present invention relates to a sealing material provided between a lower nozzle and an immersion nozzle, and more particularly, to a sealing material formed between a lower nozzle and an immersion nozzle installed under a ladle or tundish casting a molten steel. The present invention relates to a sealing material suitable for providing a prevention and crimping prevention function.

In general, the ladle and the tundish bottom are equipped with a sliding plate for controlling the discharge and discharge of molten steel.

That is, as shown in FIG. 1, the upper nozzle 1 and the lower nozzle 2 are mounted, and between them, the upper and lower sliding plates 3 and 4 (referred to as Sliding Gate Nozzle) made of refractory materials are provided. A sealing material 6 is inserted between the lower nozzle 2 and the immersion nozzle 5 to be used.

The use of the sealing material 6 in the above structure includes air as a factor that most affects quality deterioration and trouble, and mixing of air mixed between the lower nozzle 2 and the immersion nozzle 5 during casting. This is to prevent.

In general, after the tundish casting, the residual slag in the tundish is excluded, and after the tundish preheating is performed by repairing or replacing the sliding plate refractory SN in a cooling state or a hot state, casting is performed.

At this time, in the method of using the sealing material, regardless of the cold state or the hot state described above, the sealing material is applied in the same way, so that the casting is caused by the leakage of molten steel by the puncture at the connection part of the sealing material due to air mixing due to the deterioration of the sealing property during casting. There are frequent cases of interruption.

Work process using hot reusable tundish After slaying, slag exclusion ⇒ SN refractory oxygen cleaning ⇒ SN refractory exchange ⇒ Preheating of immersion nozzle ⇒ Sealing material (6) on top of immersion nozzle (5) ⇒ Lower nozzle (2) and immersion nozzle (5) assembly ⇒ move to casting position ⇒ casting process is carried out.

The sealing material installation during the process is carried out by placing the cold sealing material 6 in the hot state on the upper part of the preheated immersion nozzle and bonding the lower nozzle 2 to the explosion of the sealing material and the air cylinder of the immersion nozzle setting device. Due to the continuous pressure action by the Air Cylinder method, air is mixed due to the deterioration of the sealing property of the joint, which causes problems of deterioration of steel quality and leakage of molten steel.

The present invention has been made to solve the above-mentioned conventional problems, by attaching a ceramic insulating material on the upper and lower sides of the existing sealing material, and by contacting the inner and outer diameter of the attached insulating material differently from the sealing material, the upper and lower nozzles to the sealing material of the intermediate layer Improved sealing property (improved airtightness at high temperature, etc.) at the connection part prevents explosion during hot use and crimping by air cylinder to prevent oxidation of molten steel and suppressing penetration of the steel according to the suppression of air intrusion during casting operation, thereby providing excellent steel quality. The purpose is.

1 is a cross-sectional view of the sliding plate structure

Figure 2 is a cross-sectional view showing a sealing material casting according to the present invention

Explanation of symbols for main parts of the drawings

2: lower nozzle 5: immersion nozzle 6a: sealing material

7: ceramic insulation

According to the present invention for achieving the above object, a sliding plate (sliding gate nozzle) is formed under a ladle or tundish, and a lower nozzle installed under the ladle is formed on the basis of a sealing material. In connection with the immersion nozzle, it relates to a sealing material, characterized in that the ceramic insulating material having a better heat insulating property than the sealing material is attached to and integrated on both the upper and lower surfaces of the sealing material.

In the present invention described above, in order to prevent the accidental leakage of molten steel due to air mixing due to the deterioration of sealing properties due to the explosion and compression in the hot state of the sealing material, the contents of the sealing material on the both sides of the sealing material and the airtightness at high temperature and As a release material having hot volume stability, ceramic insulation was attached and integrated.

The ceramic insulator may have a composition as shown in Table 1 as an example. In the composition example, Al ₂ O ₃ improves corrosion resistance to molten steel. If the amount is too small, the molten steel may leak due to poor corrosion resistance. If too large, cracks may occur due to excessive expansion, and SiO ₂ is used to improve spalling resistance. If the amount is too small, cracks may occur due to excessive expansion. Fe ₂ O _{3 and} CaO are inevitably present raw materials, and the higher the purity of Al ₂ O ₃ and SiO ₂ is, the less there is. The present invention is not limited to a heat insulating material, and any heat insulating material having better heat insulating properties than a sealing material can be applied.

2 shows a sealing material according to the present invention. As shown in FIG. 2, the ceramic insulating material 7 is attached to both the upper and lower surfaces of the sealing material 6a to be integrated.

The inner diameter (a) of the ceramic heat insulating material (7) is about 5mm larger than the inner diameter (b) of the sealing material, and the outer diameter (c) is preferably about 5 mm smaller than the outer diameter (d) of the sealing material. The sealing property is improved at the top and bottom of the nozzle to show excellent performance for refractory sealing in hot state.

The ceramic insulation of the present invention puts the sealing material on the top of the immersion nozzle in the hot state and prevents the phenomenon of explosion during the setting operation and maintains the proper thickness to prevent the current penetration during casting work and when the immersion nozzle is taken out Improves separation from the nozzle.

In the conventional case, when the insulation is not used, molten steel outflow accidents occur on average 3-4 cases per month, but as a result of actual application of the insulation of the present invention on site, only one molten steel outflow occurred.

As described above, the present invention attaches the ceramic thermal insulation material as a release material having the resistance to molten steel, airtightness at high temperature, and hot volume stability on both upper and lower surfaces of the sealing material inserted between the lower nozzle and the immersion nozzle installed under the ladle or tundish. By integrating, it is possible to suppress the deterioration of steel quality and the leakage of molten steel by suppressing the air mixing phenomenon by improving the anti-explosion and compression prevention function of the sealing material during casting in the hot state.

Claims (3)

A sliding plate (sliding gate nozzle) is formed under a ladle or a tundish, and a lower nozzle installed below is bound to an immersion nozzle with a sealing material as a boundary. Sealing material, characterized in that the upper and lower sides of the ceramic insulating material having a better thermal insulation than the sealing material is attached and integrated. delete The method of claim 1, Sealing material, characterized in that the inner diameter (a) of the ceramic heat insulating material is larger than the inner diameter (b) of the sealing material, and the outer diameter (c) of the ceramic heat insulating material is smaller than the outer diameter (d) of the sealing material.