CN100586886C - Method of preparing kleit for glass fibre - Google Patents
Method of preparing kleit for glass fibre Download PDFInfo
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- CN100586886C CN100586886C CN200810197048A CN200810197048A CN100586886C CN 100586886 C CN100586886 C CN 100586886C CN 200810197048 A CN200810197048 A CN 200810197048A CN 200810197048 A CN200810197048 A CN 200810197048A CN 100586886 C CN100586886 C CN 100586886C
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- kaolin
- glass fiber
- glass
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- raw ore
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C3/00—Glass compositions
- C03C3/04—Glass compositions containing silica
- C03C3/076—Glass compositions containing silica with 40% to 90% silica, by weight
- C03C3/097—Glass compositions containing silica with 40% to 90% silica, by weight containing phosphorus, niobium or tantalum
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C13/00—Fibre or filament compositions
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- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
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- Organic Chemistry (AREA)
- Ceramic Engineering (AREA)
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Abstract
The invention relates to a method for preparing kaolin used by glass fiber. The method for preparing kaolin used by glass fiber is characterized by comprising following steps: 1) pre-calcining raw kaolin ore power at a temperature of 600 to 650 DEG C for 2.0 to 2.5 h so as to obtain the pre-calcined kaolin; the particle size of the raw kaolin ore power is smaller than 325 meshes; 2) adding an additive to the pre-calcined kaolin, wherein the additive is ZnO and CeO2, the addition of the ZnO accounts for 1 millesimal to 5 millesimals with respect to the mass of the pre-calcined kaolin, and the addition of the CeO2 also accounts for 1 to 5 parts per thousand with respect to the mass of the pre-calcined kaolin; blending and mixing so as to obtain the kaolin used by glass fiber; the content ofwater absorbed in the obtained kaolin used by glass fiber is H2O- less than or equal to 2.0 percent. The invention eliminates the phenomena of foams, coloring and infusible substances which occur whendomestic kaolin is used as a filler to by applied in the glass fiber industry, and meanwhile is more favorable for the stability of the homogenization and quality of the raw glass fiber ore; the prepared kaolin conforms to the national standards and industry requirement, can replace the imported kaolin used by glass fiber and meanwhile reduces the production cost of the glass fiber.
Description
Technical field
The present invention relates to a kind of glass fibre kleit preparation method.
Technical background
Glass fibre is new function material and the structured material in the ceramic, be widely used in high and new technology industries such as electronics, communication, nuclear energy, Aeronautics and Astronautics, weapons, naval vessels and ocean exploitation, genetic engineering, become the new and high technology material of indispensable Sustainable development of China's 21 century.
The general pyrophyllite that adds in the tradition glass prescription, its theoretical chemistry formula is Al
2O
34SiO
2H
2O.But pyrophyllite (dickite) exploitation in recent years is excessive, dilution gradually, and impurity is many, quality instability, the domestic pyrophyllite ore dressing processing enterprise of also not going up scale of China.The data from abroad report, the glass fiber enterprises of American-European countries and Taiwan adopts kaolin selected or of good quality to replace pyrophyllite and makes the glass raw material, production high strength and electronic-grade glass, good product quality.
Kaolin is mainly by kaolinite, halloysite, gibbsite, feldspar and quartzy the composition.China's glass with kaolin mainly from U.S.'s import, U.S.'s kaolin purity height, steady quality, but transportation cost is higher.China's kaolin compares foreign matter content with U.S. glass with kaolin and chemical oxygen demand (COD) (COD) is all high, easily causes fracture of wire, bubble and cause phenomenon such as look in the glass production process, has restricted the application of China's kaolin in the glass industry.It is significant with kaolin substituting import one kaolin to prepare glass at the kaolinic characteristics of China.
Summary of the invention
The object of the present invention is to provide a kind of method of preparing kleit with glass fibre, the kaolinic steady quality of glass of this method preparation.
To achieve these goals, technical scheme of the present invention is: method of preparing kleit with glass fibre is characterized in that it comprises the steps:
1) with kaolin raw ore powder at 600~650 ℃ of precalcining 2.0~2.5h, precalcining kaolin; The particle diameter of described kaolin raw ore powder is less than 325 orders (0.044mm);
2) to the China and foreign countries' doping of precalcining kaolin, additive is ZnO and CeO
2, the ZnO add-on is 1 ‰~5 ‰ of a precalcining kaolin quality, CeO
2Add-on is 1 ‰~5 ‰ of a precalcining kaolin quality; Mix and stir, get glass kaolin; The glass for preparing kaolin planar water content H
2O
-≤ 2.00% (mass content).
Mineral composition on the described high mountain range in the raw ore: kaolinic weight content 〉=91%, illitic weight content≤2%, the weight content of gibbsite≤5%, quartz+felspathic weight content≤2%.
The one-tenth of described kaolin raw ore powder is grouped into and weight percentage is: SiO
244.00 Al~48.00%,
2O
337.00 TFe~41.00%,
2O
3≤ 0.30%, MgO≤0.10%, CaO≤0.10%, Na
2O≤0.30%, K
2O≤0.30%, TiO
2≤ 0.20%, P
2O
5≤ 0.10%, MnO≤0.002%, H
2O
-≤ 2.00%, loss on ignition 13.00~17.00%, wherein Na
2O+K
2O≤0.30%.
The present invention with kaolin raw ore powder at 600~650 ℃ of precalcining 2.0~2.5h, water of constitution is taken off become estranged COD content to reduce, thereby the phenomenon of avoiding being prone to bubble in the glass production process and causing look more helps the homogenizing of glass raw ore and stablizing of quality product simultaneously; Add the trace element do not influence the glass quality in the kaolin powder after precalcining, play flux, phase transformation catalysis and the effect that reduces temperature, reduce the cost, can avoid being prone in the glass production process the not phenomenon of fusant.
The invention has the beneficial effects as follows: eliminated bubble that domestic kaolin is prone to when the glass industry as applying filler, caused look and fusant phenomenon not, more helped the stable of the homogenizing of glass raw ore and quality product simultaneously; Product meets national standard and industry requirement, can substituting import one glass kaolin, reduced the glass production cost simultaneously.
Description of drawings
Fig. 1 is that the glass of embodiment 1 is composed in the XRD figure of 2 hours gained of 1450 ℃ of calcining insulations with kaolin.
Fig. 2 is that the glass of embodiment 2 is composed in the XRD figure of 2 hours gained of 1450 ℃ of calcining insulations with kaolin.
Fig. 3 is that the glass of embodiment 3 is composed in the XRD figure of 2 hours gained of 1450 ℃ of calcining insulations with kaolin.
Fig. 4 is comparative example 1, and U.S.'s kaolin raw ore (less than 325 orders) is in the XRD figure spectrum of 2 hours gained of 1450 ℃ of calcining insulations.
Fig. 5 is the XRD figure spectrum of the kaolin raw ore (less than 325 orders) that Chinese yunnan is produced among the comparative example 2.
Fig. 6 is the XRD figure spectrum of U.S.'s kaolin raw ore (less than 325 orders) among the comparative example 1.
Embodiment
Embodiment 1:
Method of preparing kleit with glass fibre, it comprises the steps:
1) the kaolin raw ore powder that Chinese yunnan is produced gets precalcining kaolin 600 ℃ of precalcining 2h (promptly being incubated 2 hours); The particle diameter of described kaolin raw ore powder is less than 325 orders (0.044mm); The one-tenth of the kaolin raw ore that Chinese yunnan is produced is grouped into and weight percentage sees Table 1;
2) to the China and foreign countries' doping of precalcining kaolin, additive is ZnO and CeO
2, the ZnO add-on is 1 ‰ of a precalcining kaolin quality, CeO
2Add-on is 1 ‰ of a precalcining kaolin quality; Mix and stir, get glass kaolin.
The glass that obtains 1450 ℃ of calcining insulations 2 hours, does not have bubble with the kaolin sample, unusual phenomenon such as fusant does not occur, and product is qualified; From 1450 ℃ of high temperature X-ray diffraction analysiss (Fig. 1), thing has only mullite and cristobalite mutually, and is also very approaching with U.S. kaolin (Fig. 4).
Embodiment 2:
Method of preparing kleit with glass fibre, it comprises the steps:
1) the kaolin raw ore powder that Chinese yunnan is produced gets precalcining kaolin 600 ℃ of precalcining 2h (promptly being incubated 2 hours); The particle diameter of described kaolin raw ore powder is less than 325 orders (0.044mm); The one-tenth of the kaolin raw ore that Chinese yunnan is produced is grouped into and weight percentage sees Table 1;
2) to the China and foreign countries' doping of precalcining kaolin, additive is ZnO and CeO
2, the ZnO add-on is 3 ‰ of a precalcining kaolin quality, CeO
2Add-on is 3 ‰ of a precalcining kaolin quality; Mix and stir, get glass kaolin.
The glass that obtains 1450 ℃ of calcining insulations 2 hours, does not have bubble with the kaolin sample, unusual phenomenon such as fusant does not occur, and product is qualified.From 1450 ℃ of high temperature X-ray diffraction analysiss (Fig. 2), thing has only mullite and cristobalite mutually, and is also very approaching with U.S. kaolin (Fig. 4).
Embodiment 3:
Method of preparing kleit with glass fibre, it comprises the steps:
1) the kaolin raw ore powder that Chinese yunnan is produced gets precalcining kaolin at 600 ℃ of precalcining 2h; The particle diameter of described kaolin raw ore powder is less than 325 orders (0.044mm); The one-tenth of the kaolin raw ore that Chinese yunnan is produced is grouped into and weight percentage sees Table 1;
2) to the China and foreign countries' doping of precalcining kaolin, additive is ZnO and CeO
2, the ZnO add-on is 5 ‰ of a precalcining kaolin quality, CeO
2Add-on is 5 ‰ of a precalcining kaolin quality; Mix and stir, get glass kaolin.
The glass that obtains 1450 ℃ of calcining insulations 2 hours, does not have bubble with the kaolin sample, unusual phenomenon such as fusant does not occur, and product is qualified.From 1450 ℃ of high temperature X-ray diffraction analysiss (Fig. 3), thing has only mullite and cristobalite mutually, and is also very approaching with U.S. kaolin (Fig. 4).
Embodiment 4:
Method of preparing kleit with glass fibre, it comprises the steps:
1) the kaolin raw ore powder that Chinese yunnan is produced gets precalcining kaolin at 650 ℃ of precalcining 2.5h; The particle diameter of described kaolin raw ore powder is less than 325 orders (0.044mm); The one-tenth of the kaolin raw ore that Chinese yunnan is produced is grouped into and weight percentage sees Table 1;
2) to the China and foreign countries' doping of precalcining kaolin, additive is ZnO and CeO
2, the ZnO add-on is 5 ‰ of a precalcining kaolin quality, CeO
2Add-on is 5 ‰ of a precalcining kaolin quality; Mix and stir, get glass kaolin.
The comparative example:
The comparative example 1: the application test of U.S.'s kaolin raw ore in glass,
The XRD figure spectrum of U.S.'s kaolin raw ore (less than 325 orders) is seen Fig. 6, and U.S.'s kaolin raw ore composition analysis sees Table 1.
U.S.'s kaolin raw ore (being U.S.'s kaolin) is carried out application test in glass production: U.S.'s kaolin raw ore (less than 325 orders) was 1450 ℃ of calcining insulations 2 hours; There is not bubble in the sample of preparation, no heterochromatic, not fusant of trace is arranged, meet the requirement that glass is produced, see Fig. 4, the sample composition analysis in table 1 after the U.S. is kaolin calcined in 2 hours XRD figure of 1450 ℃ of calcining insulations spectrum.
The comparative example 2: the application test of kaolin raw ore in glass that Chinese yunnan is produced,
The XRD figure spectrum of the kaolin raw ore (less than 325 orders) that Chinese yunnan is produced is seen Fig. 5, and the kaolin raw ore composition analysis that Chinese yunnan is produced sees Table 1.
The kaolin raw ore that Chinese yunnan is produced carries out application test in glass production: the kaolin raw ore (less than 325 orders) that Chinese yunnan is produced was 1450 ℃ of calcining insulations 2 hours; Bubble occurred in the sample of preparation, fusant is not many slightly than U.S.'s kaolin yet.Sample composition analysis in table 1 after the kaolin raw ore that Chinese yunnan is produced is directly calcined.
The kaolin raw ore that the contrast Chinese yunnan is produced and the mineral composition (seeing Fig. 5, Fig. 6) and the chemical ingredients (seeing Table 1) of U.S.'s kaolin raw ore, can see, its every index is all more approaching, alkali metal content even also a little less than U.S.'s kaolin in the kaolin raw ore that Chinese yunnan is produced, but loss on ignition is higher, and this just causes the appearance of bubble easily; Simultaneously also contain a small amount of dystectic gibbsite in the kaolin raw ore that Chinese yunnan is produced, this should be exactly a fusant reason on the high side not.
Kaolin raw ore and the composition analysis of U.S.'s kaolin before and after calcining that table 1 produces for comparative example's Chinese yunnan.
Table 1
The sample title | U.S.'s kaolin raw ore | The kaolin raw ore that Chinese yunnan is produced | Sample after U.S.'s kaolin raw ore calcining | Sample on the high mountain range that Chinese yunnan is produced after the raw ore calcining |
SiO 2 | 44.99 | 45.18 | 51.90 | 52.62 |
Al 2O 3 | 38.16 | 37.23 | 43.64 | 43.74 |
TFe 2O 3 | 0.94 | 0.20 | 1.08 | 0.24 |
MgO | 0.03 | 0.08 | 0.03 | 0.08 |
CaO | 0.05 | 0.06 | 0.06 | 0.07 |
Na 2O | 0.31 | 0.16 | 0.35 | 0.19 |
K 2O | 0.037 | 0.13 | 0.042 | 0.16 |
TiO 2 | 0.42 | 0.18 | 0.49 | 0.21 |
P 2O 5 | 0.24 | 0.05 | 0.27 | 0.06 |
MnO | 0.0013 | 0.0013 | 0.0016 | 0.0015 |
H 2O - | 0.68 | 1.59 | 0.26 | 0.10 |
Loss on ignition | 14.68 | 15.83 | 1.76 | 1.82 |
Test-results shows, handle back (precalcining kaolin, and additive) through the present invention, bubble phenomenon disappears in the glass of the kaolin raw ore preparation that Chinese yunnan is produced, fusant is not less than U.S.'s kaolin yet, meets national standard and industry requirement fully.Therefore, can draw, the glass after handling through the present invention can replace U.S.'s kaolin as the glass raw material fully with kaolin.
Claims (1)
1. method of preparing kleit with glass fibre is characterized in that it comprises the steps:
1) with kaolin raw ore powder at 600~650 ℃ of precalcining 2.0~2.5h, precalcining kaolin; The particle diameter of described kaolin raw ore powder is less than 325 orders;
The one-tenth of described kaolin raw ore powder is grouped into and weight percentage is: SiO
244.00 Al~48.00%,
2O
337.00 TFe~41.00%,
2O
3≤ 0.30%, MgO≤0.10%, CaO≤0.10%, Na
2O≤0.30%, K
2O≤0.30%, TiO
2≤ 0.20%, P
2O
6≤ 0.10%, MnO≤0.002%, H
2O
-≤ 2.00%, loss on ignition 13.00~17.00%, wherein Na
2O+K
2O≤0.30%;
2) to the China and foreign countries' doping of precalcining kaolin, additive is ZnO and CeO
2, the ZnO add-on is 1 ‰~5 ‰ of a precalcining kaolin quality, CeO
2Add-on is 1 ‰~5 ‰ of a precalcining kaolin quality; Mix and stir, get glass kaolin; The glass for preparing kaolin planar water content H
2O
-≤ 2.00%.
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CN200810197048A CN100586886C (en) | 2008-09-23 | 2008-09-23 | Method of preparing kleit for glass fibre |
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CN200810197048A CN100586886C (en) | 2008-09-23 | 2008-09-23 | Method of preparing kleit for glass fibre |
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Families Citing this family (4)
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CN101891393B (en) * | 2010-07-16 | 2012-10-31 | 宜昌慧龙科技开发有限公司 | Inhibitor for eliminating filament breakage in the process of producing alkali-free glass fibers |
CN103979550B (en) * | 2014-05-29 | 2016-09-21 | 内蒙古超牌建材科技有限公司 | Metakaolin method for calcinating and prepared metakaolin |
CN104291679B (en) * | 2014-09-26 | 2016-07-20 | 兴山亮特精粉有限公司 | A kind of glass Kaolin and preparation method thereof |
CN111269589A (en) * | 2020-03-15 | 2020-06-12 | 雷志刚 | Method for preparing modified calcined kaolin for paint and ceramic |
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2008
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Non-Patent Citations (4)
Title |
---|
宜昌煤系高岭土低温煅烧降低COD的实验研究. 方继敏等.矿业研究与开发,第27卷第3期. 2007 |
宜昌煤系高岭土低温煅烧降低COD的实验研究. 方继敏等.矿业研究与开发,第27卷第3期. 2007 * |
高岭土在高强和电子级玻璃纤维中的应用研究. 陈丽昆等.非金属矿,第26卷第6期. 2003 |
高岭土在高强和电子级玻璃纤维中的应用研究. 陈丽昆等.非金属矿,第26卷第6期. 2003 * |
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