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Method for synthesizing sodium alumino silicate crystal with jade property

A technology of sodium aluminum silicate and a synthesis method, applied in the directions of aluminum silicate, silicate, etc., can solve the problems of high cost, inability to widely use daily necessities and home decoration products, restrictions, etc., and achieve low cost and high elasticity Function, low price effect

Inactive Publication Date: 2011-02-09
GUANGXI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004]Although a variety of artificial gemstones and jade have been synthesized in society, the cost of synthetic gemstones and jade is still very high due to the limitation of synthesis technology. And jade are mostly used in high-end luxury goods, but not widely used in human daily necessities and home decoration

Method used

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  • Method for synthesizing sodium alumino silicate crystal with jade property
  • Method for synthesizing sodium alumino silicate crystal with jade property
  • Method for synthesizing sodium alumino silicate crystal with jade property

Examples

Experimental program
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Effect test

Embodiment 1

[0024] 1. Synthesis of sodium aluminum monosilicate solid powder

[0025] In the reactor, first add 120-300 mesh Al(OH) 3 Powder, sodium silicate aqueous solution and a small amount of NaOH catalyst, the molar ratio of aluminum hydroxide to sodium silicate is 0.5; the molar ratio of sodium hydroxide to aluminum hydroxide is 2.0. Heating to a temperature of 120° C. and maintaining the reaction for 2 hours, a solid precipitate of sodium aluminum monosilicate is produced, which is filtered to obtain a solid precipitate of sodium aluminum monosilicate.

[0026] 2. Synthesis of sodium aluminum disilicate solid powder

[0027] Disperse sodium sodium monosilicate solid in water, add inorganic acid solution to adjust the pH, pH = 3, then add sodium silicate solution in an equimolar amount to sodium aluminum silicate, maintain 10°C for 72 hours, stop the reaction, Sodium aluminum disilicate solid powder was obtained by filtration.

[0028] 3. Ultra-high temperature and ultra-high pr...

Embodiment 2

[0031] 1. Synthesis of sodium aluminum monosilicate solid powder

[0032] In the reactor, first add 120-300 mesh Al(OH) 3 Powder, sodium silicate aqueous solution and a small amount of NaOH catalyst, the molar ratio of aluminum hydroxide to sodium silicate is 0.6; the molar ratio of sodium hydroxide to aluminum hydroxide is 1.0. Heating to 60°C, and maintaining the reaction for 24 hours, a solid precipitate of sodium aluminum monosilicate is produced, which is filtered to obtain a solid precipitate of sodium aluminum monosilicate.

[0033] 2. Synthesis of sodium aluminum disilicate solid powder

[0034] Disperse sodium sodium monosilicate solid in water, add inorganic acid solution to adjust the pH, pH = 5, then add sodium silicate solution in an equimolar amount to sodium aluminum silicate, maintain 40°C for 48 hours, stop the reaction, Sodium aluminum disilicate solid powder was obtained by filtration.

[0035] 3. Ultra-high temperature and ultra-high pressure polymerizat...

Embodiment 3

[0038] 1. Synthesis of sodium aluminum monosilicate solid powder

[0039] In the reactor, first add 120-300 mesh Al(OH) 3 Powder, sodium silicate aqueous solution and a small amount of NaOH catalyst, the molar ratio of aluminum hydroxide to sodium silicate is 1.0; the molar ratio of sodium hydroxide to aluminum hydroxide is 0.2. Maintain the temperature of 10°C for 48 hours to produce sodium aluminum monosilicate solid precipitation, filter to obtain sodium aluminum monosilicate solid precipitation.

[0040] 2. Synthesis of sodium aluminum disilicate solid powder

[0041] Disperse sodium sodium monosilicate solid in water, add inorganic acid solution to adjust the pH, pH = 8, then add sodium silicate solution in an equimolar amount to sodium aluminum silicate, maintain 100°C for 12 hours, stop the reaction, Sodium aluminum disilicate solid powder was obtained by filtration.

[0042] 3. High temperature polymerization molding of sodium aluminum disilicate

[0043] The obtai...

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Abstract

The invention discloses a method for synthesizing a sodium alumino silicate crystal with jade property. The method comprises the following steps of: generating monomer sodium alumino silicate (NaAlSiO4) by aluminum hydroxide and sodium silicate serving as initial raw materials through a NaOH catalytic reaction; allowing the prepared monomer sodium alumino silicate to mix and react with inorganic acid and sodium silicate solution to obtain sodium alumino disilicate (NaAlSi2O6) solid powder; and preparing the sodium alumino silicate polycrystal with jade property through a high-temperature polymerization reaction. The method has the advantages that: 1, the method adopts low-price raw materials, synthesis of the monomer sodium alumino silicate and the sodium alumino disilicate is performed under normal pressure and at a low temperature, and simple reacting equipment, simple operation and small energy consumption ensure lower cost for synthesizing jade; and 2, the jade material synthesized by the method has glass luster, glitter, high transparency, high hardness and high strength, has higher elastic function, and can be further carved into high-grade vessels and craftworks.

Description

technical field [0001] The invention relates to the field of synthesis of gemstones and jade, in particular to a method for synthesizing sodium aluminum silicate crystals with characteristics of jade. Background technique [0002] Gems and jade have been regarded as auspicious and evil objects since ancient times. They are symbols of nobility, purity, elegance, wealth, peace and happiness. Compared with gold and silver, gems and jade are not only slightly better in appearance, but also expressive. The role of mind and value preservation. Due to the scarcity of natural gems and jade storage, it cannot meet the needs of society. With the development of science, people synthesize a variety of gems and jade artificially, so that gems and jade are transformed from rare mineral resources into a renewable resource to meet the needs of society. human social needs. Synthetic gemstones have a history of nearly 100 years. The common synthetic gemstones in the jewelry market today inc...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B33/26
Inventor 农光再
Owner GUANGXI UNIV
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