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Castable cordierite-mullite refractory material and production technique thereof

A refractory material, mullite technology, applied in the field of cast cordierite-mullite refractory refractory material and its production technology, can solve the problem of slow hardening speed and so on

Active Publication Date: 2012-06-20
RUITAI MATERIALS TECHNOLOGY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

If the hydration activity is improved, the hydration speed can be accelerated, and the low magnesium oxide content can be solved, and the performance of rapid coagulation and high demoulding strength can be obtained, so as to solve the problem of slow hardening speed, and develop a casting molding with practical value. Cordierite-mullite refractory material and its production process

Method used

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  • Castable cordierite-mullite refractory material and production technique thereof
  • Castable cordierite-mullite refractory material and production technique thereof
  • Castable cordierite-mullite refractory material and production technique thereof

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Experimental program
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Effect test

Embodiment 1

[0025] 1.2-0.5mm moloketite 40%, 0.5-0.088mm moloquette 10%, 0.5-0.088mm synthetic cordierite 10%, <0.088mm synthetic cordierite 15%, <0.088mm synthetic mullite 11%, 2% magnesia micropowder, 5% alumina micropowder, 7% silica fume, plus 0.05% third-generation water reducer, and 6% water after mixing to obtain a slurry with good fluidity. After forming, the slurry is condensed in 1 hour, solidified in 2 hours, demolded after 24 hours of curing, dried at 60°C×24H, and then heat-treated at 1250°C×6 hours to obtain a regular shape, and the room temperature flexural strength reaches 18MPa, 1250 ℃ Refractory material with thermal flexural strength up to 16MPa. The invention has the advantages of simple process and convenient manufacture, and the obtained product has beautiful appearance and excellent physical properties, and the invention realizes the purpose.

Embodiment 2

[0027] 1.2-0.5mm Moloketite 30%, 0.5-0.088mm Moloquette 20%, 0.5-0.088mm synthetic cordierite 5%, <0.088mm synthetic cordierite 23%, <0.088mm synthetic mullite 2%, 3% magnesia micropowder, 5% alumina micropowder, 7% silica fume, 5% calcined kaolin, plus 0.07% third-generation water reducer, and 6% water to obtain a slurry with good fluidity. After forming, the slurry is condensed in 1 hour, solidified in 2 hours, demolded after 12 hours of curing, dried at 60°C×24H, and then heat-treated at 1200°C×6 hours to obtain a regular shape, and the room temperature flexural strength reaches 16MPa, 1200 ℃ Refractory material with thermal flexural strength up to 12MPa. The invention has the advantages of simple process and convenient manufacture, and the obtained product has beautiful appearance and excellent physical properties, and the invention realizes the purpose.

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Abstract

The invention relates to a castable cordierite-mullite refractory material which is prepared from 20-40% of 1.2-0.5mm molochite, 10-25% of 0.5-0.088mm molochite, 0-15% of 0.5-0.088mm synthetic cordierite, 10-35% of <0.088mm synthetic cordierite, 0-20% of <0.088mm synthetic mullite, 1-3% of magnesia micropowder, 2-8% of alumina micropowder, 3-10% of silica fume, 0-15% of calcined kaolin micropowder, 0.01-0.1% of additional third-generation water reducing agent and 4-8% of additional water. The production technique comprises the following steps: proportionally weighing the raw materials, mixing, and forming to obtain a green body; and standing for 12-24 hours to demold, curing at normal temperature for 1-3 days, drying at 40-60 DEG C for 1-2 days, and firing at 1150-1350 DEG C. The invention uses <10 mu m magnesia micropowder instead of common magnesia fine powder, adopts high-purity raw materials to improve the high-temperature properties, adopts abundant synthetic raw materials to reduce the firing shrinkage, and adds proper micropowder to widen the sintering temperature range, thereby solving the contradictions between low magnesia amount and high setting rate, between special shapes and dimensions and low manufacturing cost and between the difficulty in sintering and high performance. The invention develops a novel easy-forming easy-sintering technique, and prepares a refractory material product which has the advantages of special shapes and dimensions, high purity, high strength, high temperature resistance and good thermal shock resistance.

Description

technical field [0001] The invention relates to a cast cordierite-mullite fire-resistant refractory material and its production process, which has the advantages of easy forming, easy maintenance and easy sintering, and the manufactured product has high purity, high strength, high temperature resistance and thermal shock resistance Good characteristics, suitable for manufacturing large and special-shaped refractory products. Background technique [0002] Modern ceramic kilns widely use high-speed burners, air flow agitation, and rapid air cooling to speed up the heat exchange between gas and solid in the kiln; a structure consisting of pillars-beams-shelf boards is used to support the blanks so that the kiln gas and the blanks are in direct contact. ; Kiln furniture materials with low heat storage, high strength, high thermal conductivity and high thermal shock resistance are used to reduce the weight and heat storage of kiln furniture; ultra-light, low heat storage kiln car...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/66C04B35/622
Inventor 袁林王杰曾杨圣玮于龙泉刘锡俊
Owner RUITAI MATERIALS TECHNOLOGY CO LTD
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