Forsterite four-layered composite brick and manufacturing method thereof

A forsterite and layer composite technology, which is applied in the field of refractory materials, can solve the problems of increased heat dissipation of kiln cylinder, increased heat consumption of clinker, and dropped bricks, etc., so as to prolong the service life of equipment, save energy consumption, and improve refractory insulation. The effect of thermal effects

Inactive Publication Date: 2012-07-18
SUZHOU INDAL TECH RES INST OF ZHEJIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Most of the existing refractory bricks and heat insulation bricks are made of a single material. When using them, bricks with various properties need to be used together. If they are used on relatively fixed equipment, such as tunnel kilns and downdraft kilns, they can meet the requirements. , but on some relatively moving equipment, such as a rotary kiln, it is difficult to meet the requirements when used together
Some manufacturers and research units have conducted research and research on this, and have introduced some composite bricks that combine heavy materials and light materials. However, due to the low structural strength of the light parts, they cannot meet the requirements for use, and the The light part is easy to react due to material problems, which affects product performance and use effect, so it has not been widely promoted, and heavy bricks are still the main ones
[0003] Taking the 10,000t / d rotary kiln of Conch Group as an example, spinel bricks are used in the front transition zone and magnesia-chrome bricks in the firing zone. Due to the large thermal conductivity of spinel bricks in the front transition zone and magnesia-chrome bricks in the firing zone (≥ 2.7W / m·K), so that the temperature of the outer wall of the kiln shell is relatively high (about 380°C, and it can reach 420°C at high temperature), which will increase the heat dissipation of the kiln shell on the one hand, thereby increasing the heat consumption of clinker. It will cause an increase in the unit cost of clinker; on the other hand, it is very easy to cause the cylinder to expand due to heat, resulting in an increase in the temperature of the supporting wheel in the middle of the kiln, especially in the later period of use or in summer, which will bring great hidden dangers to the normal operation of the equipment.
The overheating of the cylinder increases the damage probability of mechanical equipment and accelerates the deformation of the cylinder, and the deformation of the cylinder accelerates the mechanical damage of the inner lining. The result is brick falling and kiln shutdown, which affects the operation rate of the cement rotary kiln

Method used

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  • Forsterite four-layered composite brick and manufacturing method thereof
  • Forsterite four-layered composite brick and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] Such as figure 1 As shown, the forsterite four-layer composite brick of this embodiment is stacked with a heavy working layer 1 , a first transition layer 2 , a second transition layer 3 , and a light heat insulation layer 4 sequentially from bottom to top.

[0024] in:

[0025] The particle gradation and mass percentage of the raw materials used in the heavy working layer 1 are as follows: forsterite with a particle size of 1 to 3 mm: 45%; forsterite with a particle size of less than 1 mm and larger than 325 mesh: 25%; 325 mesh forsterite: 5%; 325 mesh sintered magnesium powder: 4%; 325 mesh silica: 21%. The binding agent that adopts when preparing materials is industrial lignosulfonate solution, and its weight is 4% of heavy working layer weight.

[0026] The gradation and mass percentage of raw material particles used in the first transition layer 2 are: sintered magnesia with a particle size of 1 to 3 mm; 45%; sintered magnesia with a particle size not greater tha...

Embodiment 2

[0037] Such as figure 1 As shown, the forsterite four-layer composite brick of this embodiment is stacked with a heavy working layer 1 , a first transition layer 2 , a second transition layer 3 , and a light heat insulation layer 4 sequentially from bottom to top.

[0038] in:

[0039] The particle gradation and mass percentage of the raw materials used in the heavy working layer 1 are: forsterite with a particle size of 1-3mm: 35%; silica with a particle size smaller than 1mm and larger than 325 mesh: 31.8%; particle size smaller than 1mm And greater than 325 mesh fused magnesia: 3.2%; particle size of 325 mesh fused magnesia powder: 30%. The binding agent that adopts when preparing materials is methyl cellulose solution, and its weight is 4% of heavy working layer weight.

[0040] The particle gradation and mass percentage of the raw materials used in the first transition layer 2 are as follows: sintered magnesia with a particle size of 1 to 3 mm: 45%; Sintered magnesium ...

Embodiment 3

[0051] Such as figure 1 As shown, the forsterite four-layer composite brick of this embodiment is stacked with a heavy working layer 1 , a first transition layer 2 , a second transition layer 3 , and a light heat insulation layer 4 sequentially from bottom to top.

[0052] in:

[0053] The particle gradation and mass percentage of the raw materials used in the heavy working layer 1 are as follows: forsterite with a particle size of 1-3mm: 40%; forsterite with a particle size of less than 1mm and larger than 325 mesh: 35%; Forsterite of 325 mesh: 19%; fused magnesium powder of particle size of 325 mesh: 6%. The binding agent adopted during material preparation is industrial lignosulfonate solution, and its weight is 3% of the weight of the heavy working layer.

[0054] The particle gradation and mass percentage of the raw materials used in the first transition layer 2 are: fused magnesia with a particle size of 1 to 3 mm: 45%; fused magnesia with a particle size not greater t...

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Abstract

The invention provides a forsterite four-layered composite brick and a manufacturing method thereof. The forsterite four-layered composite brick is fine in abrasion resistance and heat-insulation performance and high in refractoriness and structural strength, the integrated refractory and heat-insulation function of the composite brick is realized, and an energy-saving effect of a rotary kiln is improved. The forsterite four-layered composite brick comprises a heavy working layer, a first transition layer, a second transition layer and a light heat-insulation layer which are sequentially stacked from bottom to top, the heavy working layer is made of forsterite materials, the first transition layer is made of manganese materials, the second transition layer is made of spinel or manganese, aluminum and chromium or manganese spinel zirconium materials, and the light heat-insulation layer is made of electrically melted hollow balls. The forsterite four-layered composite brick is provided with the transition layers, reaction between the heavy working layer and the light heat-insulation layer can be avoided, the product has excellent refractory and heat-insulation effect under the condition that service lives of materials are not shortened, accordingly, energy consumption, material consumption and refractory materials of the rotary kiln are reduced, and the service life of equipment can be effectively prolonged.

Description

technical field [0001] The invention belongs to the technical field of refractory materials, and in particular relates to a forsterite four-layer composite brick and a preparation method thereof. Background technique [0002] With the continuous emergence of new technologies for cement production, the main equipment of cement production is developing in the direction of large-scale, increasing production, improving quality, saving energy, reducing consumption, and reducing costs have become the key to increasing efficiency in production management. Most of the existing refractory bricks and heat insulation bricks are made of a single material. When using them, bricks with various properties need to be used together. If they are used on relatively fixed equipment, such as tunnel kilns and downdraft kilns, they can meet the requirements. , but on some relatively moving equipment, such as a rotary kiln, it is difficult to meet the requirements when used together. Some manufact...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F27D1/06C04B35/66
Inventor 王家邦王立旺
Owner SUZHOU INDAL TECH RES INST OF ZHEJIANG UNIV
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