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Manufacturing process of ceramic anti-static floor

An anti-static floor and manufacturing process technology, which is applied in the direction of construction, building structure, floor, etc., can solve the problems of unstable conductivity of anti-static floor, components are easily broken down by static electricity, and increase factory processing costs. Achieve the effect of quickly evacuating static electricity, satisfying anti-static, and avoiding static electricity

Inactive Publication Date: 2018-05-29
安徽向利机房设备工程有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a production process of ceramic anti-static floor, which solves the problems of unstable electrical conductivity, poor wear resistance and poor compression resistance in the existing anti-static floor, which in turn causes components to be easily broken down by static electricity, damage, increasing the processing cost of the factory

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] S1. Take 30% feldspar, 25% cobblestone, 19% graphite, 5% chamoisite, 12% Wubishi, 3% diatom mud, 2% silicon dioxide and 4% bauxite and put them in according to weight percentage. In the pulverizer, the pulverizer is ground at a speed of 1000r / min for 10 minutes to process into powder, and the pulverized powder is added to the mixed additive according to the mass ratio of 2:1 to obtain a mixture, and the mixed additive includes kaolin, clay , china clay, crushed iron, polystyrene and polyacrylate, the weight ratio of kaolin, clay, china clay, crushed iron, polystyrene and polyacrylate is 10:2:2:1:0.3: 0.5;

[0028] S2. Add water to the mixture, the mass ratio of the mixture to water is 4:1, stir at a speed of 200r / min for 30min, stir evenly, and obtain a base material layer;

[0029] S3, place the base material in an environment with an indoor temperature of 15°C and a humidity of 80%, let it stand for 1 hour, introduce it into the mold, and smooth it;

[0030] S4. Coa...

Embodiment 2

[0035] S1. Take 15% of feldspar, 20% of cobblestone, 12% of graphite, 15% of chrysanthemum, 15% of Wubishi, 5% of diatom mud, 8% of silicon dioxide and 10% of bauxite and put them into In the pulverizer, the pulverizer is ground at a speed of 1500r / min for 15 minutes and processed into powder, and the pulverized powder is added to the mixed additive according to the mass ratio of 2:1 to obtain a mixture, and the mixed additive includes kaolin, clay , china clay, crushed iron block, polystyrene and polyacrylate, the weight ratio that described kaolin, clay, china clay, crushed iron block, polystyrene and polyacrylate take is 10:5:3:2:0.6: 0.7;

[0036] S2. Add water to the mixture, the mass ratio of the mixture to water is 4:1, stir at a speed of 350r / min for 45min, stir evenly, and obtain a base material layer;

[0037] S3. Place the base material in an environment with an indoor temperature of 18°C ​​and a humidity of 85%, let it stand for 2 hours, introduce it into the mold...

Embodiment 3

[0043] S1. Take 15% of feldspar, 20% of cobblestone, 22% of graphite, 5% of chrysanthemum, 12% of Wubishi, 8% of diatom mud, 8% of silicon dioxide and 10% of bauxite and put them into In the grinder, grind the grinder at a speed of 2000r / min for 25 minutes to process into powder, and add the ground powder to the mixed additive according to the mass ratio of 2:1 to obtain a mixture. The mixed additive includes kaolin, clay , china clay, crushed iron block, polystyrene and polyacrylate, the weight ratio that described kaolin, clay, china clay, crushed iron block, polystyrene and polyacrylate take is 10:8:5:3:1: 0.8;

[0044] S2. Add water to the mixture, the mass ratio of the mixture to water is 4:1, stir at a speed of 500r / min for 60min, and stir evenly to obtain a base material layer;

[0045] S3, place the base material in an environment with an indoor temperature of 20°C and a humidity of 90%, let it stand for 3 hours, introduce it into the mold, and smooth it;

[0046] S4. ...

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Abstract

The invention discloses a manufacturing process of a ceramic anti-static floor. The process includes the steps that feldspar, cobblestone, graphite, turtle proluta, Wubi rock (belonging to marble andproduced in Lingbi county, Anhui province), diatom ooze, silicon dioxide, and bauxite are placed into a grinding mill to be ground into powder, and mixed additives are added; water is added, and the mixture is evenly mixed to obtain a base material layer; after standing for 1-3 hours, the base material layer is introduced to a mold; the base material layer is coated with epoxy resin glue to obtaina conducting layer; the conducting layer is sequentially coated with conducting adhesive and epoxy resin glue; standing for 6-10 hours is performed; after demolding operation, the surface is ground,the product is then placed to a kiln to be fired, and the ceramic anti-static floor is obtained. According to the manufacturing process of the ceramic anti-static floor, by laying the conducting layer, the conducting adhesive, and an anti-static layer sequentially on the base material layer, the conductivity stability of the ceramic anti-static floor is improved, the conductivity distribution evenness is guaranteed, and meanwhile, the abrasive resistance and crushing resistance of the ceramic anti-static floor are improved; by connecting the conducting layer and the anti-static layer through the conducting adhesive, static electricity can be dispersed fast, and the requirement of preventing static electricity in a plant building is met.

Description

technical field [0001] The invention belongs to the field of floor technology and relates to a manufacturing process of a ceramic antistatic floor. Background technique [0002] The so-called static electricity is a kind of charge that temporarily stays somewhere macroscopically or a charge that does not flow. Static electricity is formed when charges accumulate on an object or surface, and charges are divided into positive charges and negative charges, that is to say, static electricity is also divided into two types, namely positive static electricity and negative static electricity. Positive static electricity is formed when positive charges accumulate on an object, and negative static electricity is formed when negative charges accumulate on an object, but whether it is positive static electricity or negative static electricity, when an object with static electricity touches a zero-potential object (grounded) Object) or an object with a potential difference with it, cha...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04F15/08C04B33/13C04B33/04
CPCE04F15/08C04B33/04C04B33/13C04B2235/3217C04B2235/3418C04B2235/3463C04B2235/425E04F2290/048
Inventor 胡杰
Owner 安徽向利机房设备工程有限公司