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Method for producing foam microcrystal glass by utilizing composite industrial residue and product

A foamed glass-ceramic and industrial waste residue technology, applied in the field of building materials, can solve the problems of single function, narrow source range, poor comprehensive efficiency, etc., and achieve the effects of simple production process, improved flammability, and excellent performance and quality

Active Publication Date: 2012-12-26
苏州新苏化工机械有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The purpose of the present invention is to overcome the disadvantages of narrow source range of raw material of foamed glass-ceramics in the prior art, single function, and poor overall efficiency, and to provide a method for producing foamed glass-ceramics by using composite industrial waste slag and the prepared foamed glass-ceramics Glass

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] A method for producing foamed glass-ceramics by using composite industrial waste residues and the prepared foamed glass-ceramics, the ingredients are as follows:

[0038] In parts by weight, the composition and dosage of the foamed glass-ceramic batch (based on 100 parts in total, the same below) are: raw meal powder 65, fluxing agent 15, crystal nucleating agent 5, blowing agent 5, stabilizing agent Foam agent 5, enhancer 5.

[0039] The specific components and dosage of raw meal powder are: glass slag 20, fly ash 10, silica fume 10, zeolite slag 10, coal gangue 10, copper tailings 10, oil shale slag 10, perlite slag 10, diatom Soil residue 8, lithium residue 2. The specific components and dosage of flux are: 25% fluorite, 35% dolomite, 40% barite. The specific components and dosage of the crystal nucleating agent are: 40% zirconium oxide, 35% iron oxide, 15% sodium fluoride, and 10% chromium oxide. The specific components and dosage of the blowing agent are: carbon...

Embodiment 2

[0042] According to the method identical with embodiment 1, utilize composite industrial waste residue to produce foamed glass-ceramic, batching is as follows:

[0043] In parts by weight, the composition and dosage of the foamed glass-ceramic batch (100 parts in total, the same below) are: raw meal powder 70, fluxing agent 10, crystal nucleating agent 8, blowing agent 4, stabilizing agent Foaming agent 4, enhancer 4.

[0044] The specific components and dosage of raw meal powder are: glass slag 25, fly ash 15, silica fume 10, zeolite slag 10, coal gangue 5, copper tailings 5, oil shale slag 10, perlite slag 10, diatom Soil residue 5, lithium residue 5. The specific components and dosage of the flux are: 26 fluorite, 35 dolomite, 39 barite. The specific components and dosage of the crystal nucleating agent are: 45% zirconium oxide, 30% iron sesquioxide, 10% sodium fluoride, and 15% chromium sesquioxide. The specific components and dosage of the blowing agent are: carbon bla...

Embodiment 3

[0046] According to the method identical with embodiment 1, utilize composite industrial waste residue to produce foamed glass-ceramic, batching is as follows:

[0047] In parts by weight, the composition and dosage of the foamed glass-ceramic batch (100 parts in total, the same below) are: raw meal powder 75, fluxing agent 11, crystal nucleating agent 5, blowing agent 3, stabilizing agent Foaming agent 3, enhancer 3.

[0048] The specific components and dosage of raw meal powder are: glass slag 20, fly ash 10, silica fume 15, zeolite slag 15, coal gangue 10, copper tailings 10, oil shale slag 5, perlite slag 5, diatom Soil slag 6, lithium slag 4. The specific components and dosage of the flux are: 27 fluorite, 34 dolomite, 39 barite. The specific components and dosage of the crystal nucleating agent are: 50% zirconium oxide, 32% iron oxide, 3% sodium fluoride, and 15% chromium oxide. The specific components and dosage of the blowing agent are: carbon black 10, graphite 13,...

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Abstract

The invention discloses a method for producing a foam microcrystal glass by utilizing a composite industrial residue, and is characterized by comprising the following steps of: crushing different industrial residues, after mixing proportionally, grinding to raw material powder, heating, melting, quenching and drying the raw material powder, grinding to clinker powder, adding a nucleation agent, a foaming agent, a foam stabilizer, a fluxing agent and an enhancer to form a foam microcrystal batch, after pressing the batch, preheating, foaming, stabilizing the foam and annealing, sintering to obtain the foam microcrystal glass. According to the invention, burnability of the batch is remarkably improved, the burning temperature is reduced, the production cost of the foam microcrystal glass is reduced, and the method has the characteristics of abundant raw material sources, low cost, simple process, environmental friendliness, and the like. The product foam microcrystal glass has the characteristics of excellent performance quality, low volume weight, high intensity, fire protection, water tightness, corrosion resistance, no ageing, no radioactivity and the like, and is an environmental-friendly new material.

Description

technical field [0001] The invention belongs to the technical field of building materials, and relates to a foamed glass-ceramic and a production method thereof, in particular to a method for producing foamed glass-ceramic by using composite industrial waste residues and the prepared foamed glass-ceramic. Background technique [0002] At present, most of the raw materials for the production of foam glass are industrial and daily-use cullet glass powder, and mineral raw materials are also used for secondary processing. After water quenching, they are dried, crushed and ground to replace part of the glass powder, and then roasted at high temperature (1000~1200 ℃) to make foam glass products. The source of raw materials for producing such foam glass products is relatively narrow, the production cost is relatively high, the process is relatively complicated, and the popularization and application are limited, so it can only be used in special industrial thermal insulation projec...

Claims

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Application Information

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IPC IPC(8): C03C11/00
Inventor 莫祥银冯晓叁丁林飞
Owner 苏州新苏化工机械有限公司
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