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Design Method of Converter Bottom Transition Brick

A converter bottom and bottom brick technology, which is applied in the manufacture of converters and other directions, can solve the problems of low effective re-blowing ratio, large resistance, and fast melting loss of magnesia-carbon bricks.

Active Publication Date: 2022-03-25
MAANSHAN IRON & STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The structure of the circular furnace bottom and the melting pool and the flattening area of ​​the furnace bottom are not tight, and there are obvious triangular joints, which increases the risk of molten steel leakage; Brick melting loss is fast; in the follow-up maintenance process, it is difficult to maintain the ideal state of "concave in the middle and convex edge" at the bottom of the furnace, the effect of reblowing and mixing is not good, the effective reblowing ratio is low, and there are great hidden dangers in production safety
[0003] Moreover, the transition brick or brick type designed by the existing method is single, and the integrity is not strong; or the characteristics of the transition section are not fully considered, the design parameters are single, and the brick cutting, grinding, and filling volume are large during single-layer, layer-to-layer masonry.

Method used

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  • Design Method of Converter Bottom Transition Brick
  • Design Method of Converter Bottom Transition Brick
  • Design Method of Converter Bottom Transition Brick

Examples

Experimental program
Comparison scheme
Effect test

Embodiment

[0060] A 300-ton converter bottom transition brick structure and design example: The converter bottom transition brick 21 is composed of a series of brick types, the uppermost transition brick 416 is attached to the bottom layer of the furnace body brick 27, and the furnace body brick 27 is equipped with a furnace The body permanent layer 26; the transition brick 401, the lowest layer of the transition brick 21 series, is attached to the outer ring of the circular furnace bottom brick 22, and the molten pool permanent layer 25 is set under the side, and the furnace bottom permanent layer 24 is set under the circular furnace bottom brick 22 ; Transition brick 21 and each part assembly of furnace lining see Figure 5 .

[0061] The transition brick 21 is a radial hexahedron structure, the front end surface 101 and the rear end surface 102 are trapezoidal surfaces or the arc surface AA' direction; the left end surface 202 and the right end surface 201 are both trapezoidal surface...

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Abstract

The invention discloses a method for designing a transition brick at the bottom of a converter, comprising the steps of: S1, determining design parameters; S2, designing a circular furnace bottom area; S3, designing the relative height of the lower surface of the lowermost furnace body brick layer; S4 1. Design the transition brick as a radial hexahedron structure, and determine the size of the transition brick according to the design results of steps S2 and S3. The design method of the converter bottom transition brick of the present invention optimizes the structure of the transition zone, the integrity of the furnace bottom-melting pool and the furnace body is stronger, the thermal stress of the furnace bottom and the melting pool area is effectively dispersed and decomposed, and the furnace bottom and the melting pool are reduced Magnesia carbon brick melting loss.

Description

technical field [0001] The invention belongs to the technical field of converter lining in the metallurgical industry, in particular, the invention relates to a design method of transition bricks at the bottom of a converter. Background technique [0002] The existing converter bottom usually adopts "circular design, return to flat and turn over", that is, it is composed of magnesia carbon bricks for the furnace body, flat magnesia carbon bricks for the melting pool, flattened magnesia carbon bricks for the furnace bottom, triangular area and round furnace bottom magnesia carbon bricks Composition (structure such as Image 6 shown). The structure of the circular furnace bottom and the molten pool and the flattening area of ​​the furnace bottom are not tight, and there are obvious triangular joints, which increases the risk of molten steel leakage; Brick melting loss is fast; in the follow-up maintenance process, it is difficult to maintain the ideal state of "concave in the...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21C5/48C21C5/44
CPCC21C5/48C21C5/44
Inventor 徐小伟徐葆春韩宝李海波周亚辉
Owner MAANSHAN IRON & STEEL CO LTD
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