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Antistatic glass and manufacturing method thereof

An anti-static and glass technology, applied in the fields of glass and its production, anti-static glass and its manufacturing, can solve the problems of high cost and expensive equipment of anti-static glass, and achieve the effect of easy implementation and simple process

Active Publication Date: 2014-03-26
佛山中科产业技术研究院
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The cost of the antistatic glass manufactured by the above two methods is high, and the scope of use is basically fixed. In particular, the ITO glass manufacturing equipment is expensive and requires plasma sputtering equipment, and the antistatic glass manufactured only has a layer of sputtering formed on the surface. Conductive film
The anti-static glass made by the above two methods is not suitable for use as building decoration materials

Method used

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  • Antistatic glass and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1~10

[0069] Embodiments 1-10: Manufacture of conductive flat glass.

[0070] Its manufacturing method is as follows:

[0071] A method for manufacturing antistatic flat glass, comprising the steps of:

[0072] Step 1) Mixing: According to the formula components listed in Table 1, pour the inorganic conductive powder and glass powder, which are composed of one or both of inorganic conductive oxides and conductive titanates, into a ball mill for dry mixing Ball mill for about 30 minutes to mix the raw materials evenly to make a mixture, in which the mass fraction of inorganic conductive powder is 24% to 50%, and the mass fraction of glass powder is 50% to 76%.

[0073] Step 2) Melting: evenly spread the mixture prepared in step 1) in a refractory mold, which has a concave cavity, the surface of the cavity is smooth and the bottom surface of the cavity is flat, and melted in a kiln , the melting temperature is 1200°C to 1600°C to obtain molten glass paste.

[0074] The refractory m...

Embodiment 11

[0082] Embodiment 11 provides a kind of manufacture method of antistatic glassware, selects as the formula preparation raw material of serial number 5 in table 1 (here it should be understood that other formulas listed in table 1 are also applicable, because all are relatively similar, only give here provided an illustrative example).

[0083] The method that this embodiment makes glassware is as follows:

[0084] Step 1) Mixing: According to the formula No. 5 in Table 1, vibrate and mix the inorganic conductive powder and glass particles in a vibrating mill for 30 minutes, and mix the raw materials evenly to make a mixture;

[0085] Step 2) Melting: melting the mixture prepared in step 1) in a kiln at a melting temperature of 1200°C to 1600°C to obtain molten glass paste;

[0086] Step 3) Molding cooling: Pour the glass slurry obtained in step 2) into a molding mold and blow it into molding, then anneal at about 500°C for 1-2 hours, and cool to obtain a conductive glass vess...

Embodiment 12-15

[0089] In this series of embodiments, a method for manufacturing antistatic glass mosaics is selected, and the formulas with serial numbers 3, 4, 7, and 9 in Table 1 are selected as the formulas of Examples 12-15 (here should be understood as listed in Table 1) Other formulas are also suitable for making anti-static glass mosaics).

[0090] The method for making antistatic glass mosaic in this series of embodiments is as follows:

[0091] Step 1) Mixing: Weigh the inorganic conductive powder and glass particles according to formulas 3, 4, 7, and 9 listed in the formula table, and dry-mill them in a ball mill for 30 minutes to mix the raw materials evenly to make Mixture;

[0092] Step 2) Melting: Sprinkle the mixture prepared in step 1) into a mold made of refractory material or high-temperature metal with a grid-like cavity, and then melt it in a kiln. The temperature is 1200℃~1600℃, and the holding time is 1~2 hours to obtain molten glass paste;

[0093] Step 3) Forming a...

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Abstract

The invention relates to the technical field of inorganic nonmetal materials, particularly relates to glass and production technology thereof, and more particularly relates to antistatic glass and a manufacturing method thereof. The antistatic glass is at least prepared by taking 24%-50% by mass of inorganic conductive powder and 50%-76% by mass of glass powder as raw materials, uniformly mixing, melting and cooling, wherein the inorganic conductive powder is one or a mixture of an inorganic conductive oxide and conductive titanate. Compared with the prior art, the antistatic glass manufactured by the method is low in price, simple in process and easy to realize, can be used as a raw material to manufacture a lot of building materials such as flat glass, glass mosaics, ceramic glass frits, microcrystalline glass ceramic composite boards with antistatic glass layers, and can avoid electrostatic hazard when being used as the building material.

Description

technical field [0001] The invention relates to the technical field of inorganic non-metallic materials, in particular to glass and its production technology, and more specifically to an antistatic glass and its manufacturing method. Background technique [0002] Static electricity is an objective natural phenomenon, which can be produced in many ways, such as contact and friction. Static electricity may cause fatal harm to some sensitive instruments and places. For example, the electromagnetic effect (electromagnetic interference or electromagnetic compatibility) generated by static electricity during discharge will interfere with the normal operation of precision instruments and cause malfunctions in automation equipment; the accumulation of charges may produce tip discharge phenomena, which may burn precision instruments and generate electric sparks Dust may ignite and cause an explosion. Therefore, electrostatic protection technology has received great attention in the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C14/00C03C4/14
Inventor 蔡晓峰于伟东
Owner 佛山中科产业技术研究院