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Lightweight periclase-magnesium aluminate spinel refractory material for rotary cement kiln and preparation method thereof

A magnesia-aluminum spinel and cement rotary kiln technology, applied in the field of lightweight refractory materials, can solve the problems of difficult sintering, increased cylinder stress in the wheel belt area, cylinder deformation, cracks at the refractory end and heat insulation end, etc. The effect of strong medium erosion ability, good thermal shock stability and controllable bridging state

Inactive Publication Date: 2015-04-29
WUHAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002]The traditional cement rotary kiln firing zone refractories are dense refractory materials, these dense refractory materials will cause two serious problems in cement production: first, it is easy to cause The temperature of the cement kiln cylinder is too high, which wastes a lot of heat; second, the cylinder is heavy, which will increase the stress of the cylinder in the belt area and accelerate the deformation of the cylinder
However, there are two insurmountable problems in the existing gradient energy-saving composite bricks: (1) It is difficult to sinter. When the materials at both ends are fired at high temperature, the refractory end and the heat insulation end will cause cracks due to inconsistent shrinkage; (2) The strength is low, although it is dense The strength of the refractory end is high, but the strength of the insulation layer and the interface is low. When subjected to extrusion force, shear force, thermal stress, etc. from time to time, it is easy to break the interface and the insulation layer, resulting in dense refractory material at the outer end. drop
"A kind of aluminum-magnesium refractory brick containing lightweight porous aggregate and its preparation method" (ZL 200710052474.0)) patent technology provides a kind of high apparent porosity, small average pore size, low thermal conductivity and resistance to neutral or Alumina-magnesia refractory bricks containing lightweight porous aggregates with strong alkaline medium erosion ability, but this kind of refractory bricks cannot be used in the firing zone of cement rotary kiln

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A lightweight periclase-magnesia-alumina-spinel refractory material for cement rotary kiln and its preparation method: firstly, 0.2~1wt% magnesite fine powder and 2~4wt% activated α-alumina fine powder are uniformly dispersed in 5 In the magnesium chloride aqueous solution of ~7wt%, obtain modified magnesium chloride aqueous solution; Then the particle diameter of 16~18wt% is the porous periclase-magnesium aluminum spinel ceramic particle of 5~3mm, the particle diameter of 24~30wt% is 3mm ~1mm porous periclase-magnesium aluminum spinel ceramic particles and 10~12wt% porous periclase-magnesium aluminum spinel ceramic particles with a particle size of 1~0.1mm are placed in a vacuum mixer and vacuumed to Below 2.5kPa, keep the constant pressure for 3 minutes, then under the same pressure conditions, pour the modified magnesium chloride aqueous solution into the vacuum mixer, stir for 10 minutes, and close the vacuum system; Pour magnesia-magnesia-alumina spinel ceramic fin...

Embodiment 2

[0028]A lightweight periclase-magnesia-aluminum spinel refractory material for cement rotary kiln and its preparation method: firstly, 2~4wt% magnesite fine powder and 0.2~1wt% activated α-alumina fine powder are uniformly dispersed in 6 ~8wt% aluminum sol to obtain modified aluminum sol; then 18~20wt% porous periclase-magnesium aluminum spinel ceramic particles with a particle size of 5~3mm, 26~32wt% particle size of 3mm ~1mm porous periclase-magnesium aluminum spinel ceramic particles and 12~14wt% porous periclase-magnesium aluminum spinel ceramic particles with a particle size of 1~0.1mm are placed in a vacuum mixer and vacuumed to Below 2.5kPa, keep the constant pressure for 3 minutes, then pour the modified aluminum sol into the vacuum mixer under the same pressure conditions, stir for 10 minutes, and turn off the vacuum system; Pour magnesia-magnesia-alumina spinel ceramic fine powder, 4-10wt% magnesia fine powder and 1.5-2wt% magnesia-alumina spinel fine powder into the...

Embodiment 3

[0032] A lightweight periclase-magnesia-aluminum spinel refractory material for cement rotary kiln and its preparation method: firstly, 1~2wt% magnesite fine powder and 1~2wt% active α alumina fine powder are uniformly dispersed in 6 In the aluminum magnesium hydroxide sol of ~8wt%, obtain modified aluminum magnesium hydroxide sol; Then the particle diameter of 18~22wt% is the porous periclase-magnesium aluminum spinel ceramic particle of 5~3mm, 28~34wt % of the porous periclase-magnesium aluminum spinel ceramic particles with a particle size of 3~1mm and 12~14wt% of the porous periclase-magnesium aluminum spinel ceramic particles with a particle size of 1~0.1mm are placed in a vacuum In the mixer, vacuumize to below 2.5kPa, keep the constant pressure for 3 minutes, then pour the modified aluminum magnesium hydroxide sol into the vacuum mixer under the same pressure conditions, stir for 10 minutes, and close the vacuum system; Then pour the porous periclase-magnesia-alumina sp...

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Abstract

The invention relates to a lightweight periclase-magnesium aluminate spinel refractory material for a rotary cement kiln and a preparation method thereof. According to the scheme, the preparation method comprises the following steps of: uniformly dispersing 0.2 to 4wt% of magnesite micro powder and 0.2 to 4wt% of active alpha alumina micro powder into 5 to 8wt% of binding agent to obtain a modified binding agent; adding 50 to 70wt% of porous periclase-magnesium aluminate spinel ceramic particles to a vacuum agitating machine; vacuumizing to be below 2.5kPa; maintaining the constant pressure for 3 minutes; adding the modified biding agent to the vacuum agitating machine; agitating for 10 minutes; closing a vacuumizing system; then adding 10 to 25wt% of porous periclase-magnesium aluminate spinel ceramic fine powder, 4 to 20wt% of fine magnesia powder, and 1.5 to 4wt% of magnesium aluminate spinel fine powder to the vacuum agitating machine; uniformly agitating; mechanically pressing and modeling; drying; and maintaining the temperature of 1,500 to 1,650 DEG C for 2 to 10 hours. The lightweight periclase-magnesium aluminate spinel refractory material for the rotary cement kiln has the advantages of being low in heat conductivity, high in intensity, high in thermal shock resistance, high in kiln coating performance, and high in resistance to medium erosion.

Description

technical field [0001] The invention belongs to the technical field of lightweight refractory materials. Specifically relates to a lightweight periclase-magnesia-alumina-spinel refractory material for a cement rotary kiln and a preparation method thereof. Background technique [0002] The refractories used in the firing zone of traditional cement rotary kilns are dense refractory materials. These dense refractory materials will cause two serious problems in cement production: first, it is easy to cause the temperature of the cement kiln cylinder to be too high, and a lot of heat is wasted; second, The heavy weight of the cylinder will increase the stress of the cylinder in the tire belt area and accelerate the deformation of the cylinder. [0003] In order to reduce the heat loss and weight of the cement rotary kiln shell, it has been proposed to reduce the weight of the existing dense refractory materials for the firing zone of cement rotary kilns by producing multi-layer ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/622C04B35/66
Inventor 鄢文陈俊峰李楠韩兵强魏耀武柯昌明
Owner WUHAN UNIV OF SCI & TECH
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