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Preparation process for anti-fouling and anti-slide brick as well as product and used polishing production line thereof

A preparation process and anti-fouling technology, which is applied in the field of architectural ceramics, can solve the problems of non-permanent anti-fouling effect of anti-fouling and anti-skid bricks, and achieve the effect of not lasting anti-fouling performance and simple process operation

Active Publication Date: 2017-03-08
山西东鹏新材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to propose a preparation process of anti-fouling and anti-skid bricks to solve the problem that the anti-fouling effect of anti-fouling and anti-skid bricks is not durable

Method used

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  • Preparation process for anti-fouling and anti-slide brick as well as product and used polishing production line thereof
  • Preparation process for anti-fouling and anti-slide brick as well as product and used polishing production line thereof
  • Preparation process for anti-fouling and anti-slide brick as well as product and used polishing production line thereof

Examples

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Comparison scheme
Effect test

preparation example Construction

[0030] A kind of preparation technology of antifouling antiskid brick, comprises the following steps:

[0031] A. Polish the semi-finished brick body, and apply anti-fouling liquid on the surface of the brick body after polishing;

[0032] B. Coating an anti-slip fluid that is corrosive to bricks;

[0033] C. When the anti-slip liquid in step B is not dry, apply the anti-fouling colloidal solution, make it dry, and form a film on the surface of the brick body to obtain anti-fouling and anti-skid bricks.

[0034] After the semi-finished brick body is polished, there are two characteristics. First, rough pores will be exposed on the surface of the polished brick body. Second, the temperature of the brick surface will increase after polishing.

[0035] According to the first characteristic, this application is coated with antifouling liquid after polishing, such as figure 1 as shown ( figure 1 The brick body in the figure is a structural schematic diagram of the brick body sec...

Embodiment 1

[0045] Choose polished bricks after molding, drying, printing, firing, and rough polishing as semi-finished bricks;

[0046] A. Polish the semi-finished brick body, and apply hydrogen-containing silicone oil on the surface of the brick body after polishing;

[0047] B, coating carbonic acid solution, concentration is 30%;

[0048] C. Before the fruit acid water-based liquid is completely dry (generally after coating the carbonic acid solution with a concentration of 30% and staying for 90 seconds, apply the acid colloid), apply the acid colloid (sodium methyl silicate), and form on the surface of the brick body Thin film, to obtain a polished tile with a brightness of 75 and a coefficient of friction of 0.72. There is no obvious difference between its gloss and the polished tiles on the market with the naked eye.

[0049] Antifouling performance test: (1) pass the red and blue ink test, no trace; (2) pass the red, blue and black oil-based pen test, no trace (three-level antifou...

Embodiment 2

[0051] Choose polished bricks after molding, drying, printing, firing, and rough polishing as semi-finished bricks;

[0052] A. Polish the semi-finished brick body, and apply hydrogen-containing silicone oil on the surface of the brick body after polishing;

[0053] B, coating acidic colloid (sodium methyl silicate);

[0054] C. Before the acidic colloid is dried to form a film, apply a carbonic acid solution with a concentration of 30% to form a film on the surface of the brick body to obtain a polished brick. The brightness of the brick surface is 62, and the friction coefficient is 0.61. There is a noticeable difference in gloss.

[0055] From the comparison of Examples 1 and 2, it is known that when the anti-slip liquid and the anti-fouling colloidal solution are coated in the opposite order, the brightness of the obtained brick body is inconsistent. There is no obvious difference in the polished tiles to the naked eye, and the polished tiles obtained in Example 2, even ...

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Abstract

The invention discloses a preparation process for an anti-fouling and anti-slide brick as well as a product and a used polishing production line thereof. The preparation process comprises the following steps: A. polishing a semi-finished brick body, and then coating the surface of the brick body with an anti-fouling liquid; B. coating an anti-slide liquid with corrosion property for the brick; and C. coating an anti-fouling colloidal solution when the anti-slide liquid in the step B is not dried, and forming a film on the surface of the brick body after the anti-fouling colloidal solution is dried to obtain the anti-fouling and anti-slide brick. The invention discloses a preparation process for an anti-fouling and anti-slide brick, solves the problem of non-persistent anti-fouling effect of the anti-fouling and anti-slide brick, and further discloses an anti-fouling and anti-slide brick and a polishing production line used in the process additionally. The obtained brick body has dry-method and wet-method static friction coefficients of greater than 0.6, and has persistent anti-fouling property; and the polishing production line capable of being used in a matching manner is developed according to the requirements of the preparation process, and simple improvement needs to be carried out on an existing polished brick only.

Description

technical field [0001] The invention relates to the technical field of architectural ceramics, in particular to a preparation process and product of antifouling and antiskid bricks and a polishing production line used therefor. Background technique [0002] With the continuous improvement of the level of architectural decoration, the floors of luxurious and high-end public buildings (hotels, office buildings, commercial buildings, and even high-end apartments, etc.), especially use a large number of stone, ceramic tiles and other panels as finishes, while beautifying the environment. But it has also brought the increasingly prominent safety hazard of slipping on the ground. At present, domestic public places are too slippery, which leads to accidental slipping, injury and disability, and other incidents are on the rise. The anti-slip surface has become a new problem of public safety. In foreign countries, slipping or falling in the workplace is also the number one injury pr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B28B11/04C04B41/89C04B41/91
CPCB28B11/04C04B41/52C04B41/5353C04B41/89C04B41/91C04B41/4905C04B41/5089C04B41/455C04B41/5016
Inventor 祁明钟保民姜安宁林锦威
Owner 山西东鹏新材料有限公司