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Lightweight periclase-magnesia aluminum spinel refractory material and preparation method thereof

A magnesia-alumina spinel and refractory technology, applied in the field of lightweight periclase-magnesia-alumina spinel refractories and its preparation, can solve the problems of material erosion, difficult cement rotary kiln, difficult to use, etc.

Active Publication Date: 2019-11-08
河南瑞泰耐火材料科技有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For example, "a periclase-spinel lightweight refractory material and its preparation method" (ZL201610172527.1) patented technology, using magnesium oxide carbothermal reduction transport oxidation method to prepare lightweight periclase-spinel with different density gradients Spar refractory materials require strict atmospheric conditions during the preparation process. The prepared materials are dense on the surface and loose on the inside. Once the dense layer on the surface is damaged and the porous structure inside is in contact with the erosive medium, the material will be severely eroded and difficult to be used for replacement. fuel for cement rotary kiln
Another example is the patented technology of "Lightweight periclase-magnesia-alumina-spinel refractory material for cement rotary kiln and its preparation method" (ZL201410059476.2), which replaces dense magnesia aggregate with porous periclase-spinel aggregate , although the prepared lightweight periclase-magnesia-alumina-spinel refractory material has good thermal shock stability and high strength, it has large pore size, high air permeability, and poor corrosion resistance to saline-alkali and heavy metal oxides. Difficult to use in cement rotary kilns using alternative fuels

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] A lightweight periclase-magnesia-aluminum spinel refractory material and a preparation method thereof. The preparation method described in this embodiment is:

[0041] The composition of the lightweight periclase-magnesia-aluminum-spinel refractory material is: porous periclase-magnesia-alumina-spinel ceramic material particles with a particle diameter of 17-21 wt% and a nanopore diameter of 3-5 mm, 27 ~30wt% of porous periclase-magnesia-aluminum spinel ceramic material particles with a particle size of less than 3mm and a nanopore diameter of 1mm or more and 12~15wt% of porous squares with a particle size of less than 1mm and a nanopore diameter of 0.1mm or more Magnesite-magnesia-alumina-spinel ceramic material particles are used as aggregate, with 10-12wt% of porous periclase-magnesia-alumina-spinel ceramic material fine powder with a particle size of less than 0.074mm and 8-10wt% of Magnesia-aluminum spinel fine powder and 15-20wt% magnesia fine powder are substrat...

Embodiment 2

[0051] A lightweight periclase-magnesia-aluminum spinel refractory material and a preparation method thereof. The preparation method described in this embodiment is:

[0052] The composition of the lightweight periclase-magnesia-aluminum spinel refractory material is: porous periclase-magnesia-aluminum spinel ceramic material particles with a particle diameter of 15-19 wt% and a nanopore diameter of 3-5 mm, 31 ~34wt% porous periclase-magnesium aluminum spinel ceramic material particles with a particle size of less than 3mm and a nanopore diameter greater than or equal to 1mm and 14~17wt% porous square particles with a particle size of less than 1mm and a nanopore diameter greater than or equal to 0.1mm Magnesite-magnesia-aluminum spinel ceramic material particles are aggregates, with 12-15wt% porous periclase-magnesia-alumina spinel ceramic material fine powder with a particle size of less than 0.074mm in nanopore size, 8-10wt% Magnesia-aluminum spinel fine powder and magnesi...

Embodiment 3

[0062] A lightweight periclase-magnesia-aluminum spinel refractory material and a preparation method thereof. The preparation method described in this embodiment is:

[0063] The composition of the lightweight periclase-magnesia-aluminum-spinel refractory material is: porous periclase-magnesia-alumina-spinel ceramic material particles with a particle diameter of 16-20 wt% and a nanopore diameter of 3-5 mm, 29 ~32wt% of porous periclase-magnesia-aluminum spinel ceramic material particles with a particle size of less than 3mm and a nanopore size of 1mm or more and 13~16wt% of porous squares with a particle size of less than 1mm and a nanopore size of 0.1mm or more Magnesite-magnesia-alumina-spinel ceramic material particles are aggregates, with 15-18wt% of porous periclase-magnesia-alumina-spinel ceramic material fine powder with a particle size of less than 0.074mm and 8-10wt% of Magnesia-alumina spinel fine powder and magnesia fine powder of 12~15wt% are matrix; Al with the s...

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Abstract

The invention relates to a lightweight periclase-magnesium aluminate spinel refractory material and a preparation method thereof. The refractory material contains 14-21 wt% of porous periclase-magnesium aluminate spinel ceramic material particles with the particle size of 3-5 mm, 27-36 wt% of porous periclase-magnesium aluminate spinel ceramic material particles with the particle size being less than 3 mm and not less than 1 mm, 12-18 wt% of porous periclase-magnesium aluminate spinel ceramic material particles with the particle size of nano-apertures being less than 1 mm and not less than 0.1 mm as aggregates, contains 10-20 wt% of nano-aperture porous periclase-magnesium aluminate spinel ceramic material fine powder, 8-10 wt% of magnesium aluminate spinel fine powder and 10-20 wt% of magnesia fine powder as a matrix, and also contains 2-8 wt% of a binder. The preparation method comprises the following steps: placing the aggregates in a vacuum stirrer, carrying out vacuum pumping, adding the binder, stirring the aggregates and the binder, and stopping a vacuum pumping system; and adding the matrix, stirring the aggregates, the binder and the matrix, forming the obtained mixture, drying the formed mixture, keeping the temperature in a range of 1500-1650 DEG C for 3-8 h, and cooling the obtained mixture to obtain the lightweight periclase-magnesium aluminate spinel refractory material. The apertures of the lightweight periclase-magnesium aluminate spinel refractory material are nanometer level apertures, and the lightweight periclase-magnesium aluminate spinel refractory material has the advantages of low heat conduction coefficient, excellent thermal shock stability and strong erosion resistance.

Description

technical field [0001] The invention belongs to the technical field of periclase-magnesium aluminum spinel refractory materials. In particular, it relates to a lightweight periclase-magnesia-aluminum spinel refractory material and a preparation method thereof. Background technique [0002] Periclase-magnesia-aluminum spinel refractory has excellent mechanical properties and high-temperature chemical stability, and is widely used in the upper transition zone and firing zone of cement rotary kilns. Due to its high density and high thermal conductivity, it is easy to The temperature of the rotary kiln cylinder is too high, resulting in a large amount of heat loss. Therefore, the development of lightweight periclase-magnesia-alumina-spinel refractories is an important way to reduce the thermal conductivity of the cement kiln lining. At the same time, with the development of modern industry and the acceleration of urbanization, a large amount of urban solid waste has caused seri...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/04C04B35/443C04B35/622C04B35/043C04B38/08
CPCC04B35/04C04B35/043C04B35/443C04B35/622C04B38/08C04B2235/3217C04B2235/3218C04B2235/3222C04B2235/6562C04B2235/6567C04B2235/77C04B2235/96C04B38/0074C04B38/0054C04B38/0067
Inventor 鄢文翟耀杰刘锡俊马三宝李楠徐琳琳任向阳刘昭翟鹏涛
Owner 河南瑞泰耐火材料科技有限公司
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