CN110587405A - Method for improving anti-slip performance of polished tile and polished tile - Google Patents

Abstract

The invention discloses a method for improving the anti-slip performance of a polished tile and the polished tile, wherein the method comprises the steps of placing the polished tile in a nano polishing machine, polishing the surface of the polished tile, heating the surface of the polished tile, dropwise adding an anti-slip liquid on the surface of the polished tile, polishing, dropwise adding an anti-slip fixing liquid which reacts with the anti-slip liquid, polishing until the anti-slip liquid completely reacts with the anti-slip fixing liquid, and further cleaning and polishing the surface of the polished tile until the glossiness of the surface of the polished tile is uniform, so as to obtain a finished product of the anti-slip polished tile; the invention has antifouling effect under the condition of not influencing the gloss of the ceramic tile; meanwhile, the polishing brick has the antiskid effect under the condition that the surface of the polishing brick is dry or has water; the invention utilizes the existing polishing line equipment, does not need to additionally introduce production equipment, simplifies the production process and reduces the production cost.

Description

Method for improving anti-slip performance of polished tile and polished tile

Technical Field

The invention relates to the technical field of building ceramic tiles and preparation methods thereof, in particular to a method for improving the anti-slip performance of a polished tile and the polished tile.

Background

Nowadays, ceramic tiles are popularized in every family and various public places, accidents of slipping and falling are frequent, and people pay more and more attention to safety while pursuing the brightness of the ceramic tiles. Therefore, the preparation of the ceramic tile with high brightness, skid resistance and stain resistance is very important for guaranteeing the safety of people.

The currently common methods for preparing the anti-skid ceramic tile mainly comprise the following steps: 1. forming a concave-convex structure on the brick surface by using a special-shaped die or post processing; the method for improving the roughness of the brick surface by utilizing the mechanical occlusion effect is not beneficial to cleaning, the effect of the brick surface is easy to damage in later processing, and the processing difficulty is high and the controllability is poor. 2. Processing the surface of the finished brick by using corrosive liquid to form a microporous structure on the surface of the brick; the method destroys the glaze layer of the ceramic tile, reduces the glossiness of the surface of the ceramic tile, and the prepared ceramic tile has poor antifouling property. 3. Spreading anti-slip glaze on the ceramic tile; after the ceramic tile prepared by the method is sintered, uniform and fine dot concave-convex glaze surfaces can be formed on the surface of the ceramic tile, so that an anti-skid effect is generated; but reduces the gloss of the tile surface. 4. Coating an anti-slip coating on the brick surface, and improving the friction coefficient by using the anti-slip coating attached to the brick surface; the adhesion force of the antiskid coating and the brick surface is poor, the durability is poor, and the permeability of the coating can influence the original decoration of the brick surface.

In addition, the prepared anti-skid ceramic tile can only solve the problem of skid resistance in the drying process, and has poor anti-skid effect even no anti-skid effect when meeting water; moreover, the above preparation method requires introduction of additional production equipment or special treatment, increasing production costs.

It is seen that improvements and enhancements to the prior art are needed.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a method for improving the anti-slip performance of a polished tile and the polished tile, and aims to solve the technical problems that the polished tile in the prior art is poor in anti-slip and anti-fouling performance, the method for preparing the anti-slip tile is complex, and production equipment or special treatment needs to be additionally introduced.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method of improving the slip resistance of a polished tile comprising the steps of:

s001, placing the ceramic tile in a nano polishing machine, polishing the surface of the ceramic tile, and heating the surface of the ceramic tile;

s002, dropwise adding an anti-slip liquid on the surface of the ceramic tile, and polishing until the anti-slip liquid is uniformly distributed on the ceramic tile;

s003, dropwise adding an anti-skid fixing liquid which reacts with the anti-skid liquid on the surface of the ceramic tile, and polishing until the anti-skid fixing liquid completely reacts with the anti-skid liquid;

s004, cleaning, grinding and polishing to obtain a finished product;

in the method for improving the anti-slip property of the polished tile, the anti-slip liquid consists of the following components in percentage by mass: 1 to 25 percent of organic acid, 20 to 35 percent of antiskid synergist, 20 to 25 percent of anionic surfactant and the balance of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 30 to 35 percent of cationic water-based polymer and the balance of organic solvent.

In the method for improving the anti-slip property of the polished tile, the anionic surfactant comprises one or two of sodium dodecyl sulfate, sodium dodecyl benzene sulfonate and sodium stearate.

In the method for improving the anti-slip property of the polished tile, in the step S001, the polished tile is polished until the temperature of the tile surface is 40-60 ℃.

In the method for improving the anti-slip property of the polished tile, in the step S002, 0.5-2 mL of anti-slip liquid is dropwise added per square centimeter; in the step S003, 0.5-2 mL of antiskid stationary liquid is dropwise added per square centimeter.

In the method for improving the anti-slip property of the polished tile, the dropping volume ratio of the anti-slip liquid to the anti-slip fixing liquid is 1: 1.

In the method for improving the anti-slip property of the polished tile, in the polishing process, the grinding head comprises one of a wool wheel and a nylon pad.

In the method for improving the anti-slip property of the polished tile, in the step S004, the grinding and polishing speed is 3-10 minutes/m²。

An anti-skid polished tile is prepared by the method for improving the anti-skid performance of the polished tile.

Has the advantages that:

the invention provides an antiskid polished tile and a preparation method thereof, wherein antiskid solution is filled into capillary pores on the surface of the tile in a grinding mode, the antiskid solution reacts with antiskid fixing solution, gel particles capable of absorbing water and expanding are formed after curing, and a resin film capable of absorbing water is formed on the surface of the tile; when the ceramic tile is subjected to external force, the gel particles are extruded by the external force, and vacuum suction is formed after water is drained; under the condition of not influencing the glossiness of the ceramic tile, the polishing tile has the anti-skid and anti-fouling effects by utilizing the combined action of the gel particles and the resin film; meanwhile, the existing polishing line equipment is utilized, additional production equipment is not required, the production process is simplified, and the production cost is reduced.

Detailed Description

The invention provides an anti-skid polished tile and a preparation method thereof, and in order to make the purpose, technical scheme and effect of the invention clearer and clearer, the invention is further described in detail by the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a method for improving the anti-slip performance of a polished tile, which comprises the following steps:

(1) placing the ceramic tile in a nano polishing machine; polishing the surface of the ceramic tile to enable the surface of the ceramic tile to be heated to 40-60 ℃;

(2) dripping 0.5-2 mL of anti-slip liquid on the surface of the ceramic tile in a dripping amount of per square centimeter, polishing the surface of the ceramic tile by using 2-4 wool wheels or nylon pads, and enabling the anti-slip liquid to penetrate into capillary pores of the ceramic tile until the anti-slip liquid is uniformly distributed on the ceramic tile;

(3) dropwise adding 0.5-2 mL of anti-skid fixing liquid which reacts with the anti-skid liquid on the surface of the ceramic tile in a dropwise adding amount of 0.5-2 mL per square centimeter, polishing by using 4-6 wool wheels or nylon pads until the anti-skid fixing liquid completely reacts with the anti-skid liquid;

(4) and cleaning by using a wool wheel, and grinding and polishing for 3-10 minutes to obtain a finished product.

In the method, the brick surface is polished to ensure that the temperature of the brick surface is 40-60 ℃, the temperature range is favorable for opening the capillary holes of the ceramic tile, so that the anti-skid liquid can conveniently enter the capillary holes, and simultaneously, as much anti-skid liquid as possible is filled into the capillary holes, so that a thicker anti-skid and anti-fouling layer can be formed, and the long-term anti-skid and anti-fouling effects can be kept.

Further, the anti-skid liquid comprises the following components in percentage by mass: 1 to 25 percent of organic acid, 20 to 35 percent of antiskid synergist, 20 to 25 percent of anionic surfactant and the balance of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 30 to 35 percent of cationic water-based polymer and the balance of organic solvent. The anti-slip liquid rapidly permeates capillary pores and fine cracks of the polished tile under the action of pressure application, grinding and polishing, reacts with the subsequently added anti-slip fixing liquid, and forms gel particles capable of absorbing water and expanding after curing and forms a resin film. The resin film enables the ceramic tile to have a bright surface, and the resin film has a good antifouling effect and can prevent dirt from permeating into the ceramic tile; meanwhile, the resin film enables the brick surface to have a good anti-skid effect when being dried. Under the water condition is met to the ceramic tile, the gel particle absorbs water and swells, and when people trample the ceramic tile, the gel particle receives external force extrusion, forms vacuum suction behind the drainage, and then holds sole or sole, reaches wet skid-proof effect. The polishing brick has the advantages of skid resistance and pollution resistance on the premise of not reducing the surface glossiness of the polishing brick.

Further, the anionic surfactant comprises one or two of sodium dodecyl sulfonate, sodium dodecyl benzene sulfonate and sodium stearate. The sodium dodecyl benzene sulfonate and the sodium stearate have good chemical stability and dispersibility, and are beneficial to the dispersion of components in an antiskid liquid system; the sodium dodecyl sulfate has good permeability, and is beneficial to the anti-skid liquid to permeate into capillary pores on the surface of the ceramic tile.

At a rate of 0.5 to 2mL/cm²The anti-skid liquid or the anti-skid fixing liquid is dripped on the surface of the ceramic tile and polished, the anti-skid liquid is dripped and polished simultaneously, so that the anti-skid liquid is more uniformly thrown into capillary pores on the surface of the ceramic tile, the surface of the ceramic tile is oily and wet after polishing, the glossiness of the surface of the ceramic tile is greater than 70 degrees, and the anti-skid fixing liquid dripped with the same dripping amount subsequently and the anti-skid liquid are fully reacted and cured to form a resin film which covers the whole surface of the ceramic tile and has anti-skid and anti-fouling effects.

In the embodiment, the dropping volume ratio of the anti-skid liquid to the anti-skid fixing liquid is 1:1, so that the waste of the anti-skid liquid and the anti-skid fixing liquid can be avoided while the sufficient reaction is ensured.

Furthermore, the wool wheel and the nylon pad can effectively press the anti-skid liquid and the anti-skid fixing liquid into capillary pores on the surface of the ceramic tile, and have moderate hardness and strong cutting force, can remove inconspicuous flaws on the surface of the ceramic tile, quickly polish and polish the surface of the ceramic tile, shorten polishing and grinding time, and ensure that the polished surface of the ceramic tile is fine and dense, thereby being beneficial to forming a high-glossiness ceramic tile surface.

Furthermore, the polishing time has an important influence on the formation of the anti-skid and anti-fouling resin film, and the polishing provides heat for the reaction of the anti-skid liquid and the anti-skid fixing liquid, so that the reaction speed is increased, and the volatilization of the organic solvent is facilitated; when the polishing speed is 3-10 min/m²The anti-skid liquid and the anti-skid fixing liquid can be ensured to fully react and are uniformly distributed on the surface and capillary holes of the ceramic tile, the surface of the polished tile surface is oily and wet, the tile surface is smooth and has no non-uniformity phenomenon, and the polishing time enables the performance of the polished tile to be optimal.

An anti-skid polished tile is prepared by a method for improving the anti-skid performance of the polished tile. The anti-skid polished tile has high brightness and antifouling effect; meanwhile, the polishing brick has the antiskid effect under the condition that the surface of the polishing brick is dry or has water.

Example 1

A method of improving the slip resistance of a polished tile comprising the steps of:

placing the ceramic tile in a nano polishing machine, polishing the surface of the ceramic tile, and heating the surface of the ceramic tile to 45 ℃; then at a rate of 1mL/cm²The anti-skid liquid is dripped on the surface of the ceramic tile by the dripping amount, and 3 nylon pads are used for polishing; then at a rate of 1mL/cm²The anti-skid fixing liquid is dripped on the surface of the ceramic tile by the dripping amount, and 4 nylon pads are used for polishing; cleaning with a wool wheel, and grinding and polishing for 10 minutes to obtain the anti-skid polished brick.

The anti-skid liquid comprises the following components in percentage by mass: 20% of organic acid, 20% of antiskid synergist, 22% of sodium dodecyl benzene sulfonate and 38% of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 30% of cationic water-based polymer and 70% of organic solvent.

Example 2

A method of improving the slip resistance of a polished tile comprising the steps of:

placing the ceramic tile in a nano polishing machine, polishing the surface of the ceramic tile, and heating the surface of the ceramic tile to 55 ℃; then at a rate of 2mL/cm²The anti-skid liquid is dripped on the surface of the ceramic tile by the dripping amount, and 4 nylon pads are used for polishing; the tile is dripped in an amount of 2mL/cm without cleaning²Dripping anti-skid fixing liquid on the surface of the ceramic tile, and polishing by using 5 nylon pads; and cleaning by using a wool wheel, and grinding and polishing for 5 minutes to obtain the anti-skid polished brick.

The anti-skid liquid comprises the following components in percentage by mass: 1% of organic acid, 30% of antiskid synergist, 25% of sodium stearate and 44% of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 32% of cationic aqueous polymer and 68% of organic solvent.

Example 3

A method of improving the slip resistance of a polished tile comprising the steps of:

placing the ceramic tile in a nano polishing machine, polishing the surface of the ceramic tile, and heating the surface of the ceramic tile to 40 ℃; then 0.5mL/cm²The anti-skid liquid is dripped on the surface of the ceramic tile by the dripping amount, and the surface is polished by 4 wool wheels; without cleaning the tile, at 0.5mL/cm²The anti-skid fixing liquid is dripped on the surface of the ceramic tile by the dripping amount, and 5 wool wheels are used for polishing; cleaning with a wool wheel, and grinding and polishing for 3 minutes to obtain the anti-skid polished brick.

The anti-skid liquid comprises the following components in percentage by mass: 25% of organic acid, 25% of antiskid synergist, 20% of sodium stearate and 30% of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 34% of cationic water-based polymer and 66% of organic solvent.

Example 4

A method of improving the slip resistance of a polished tile comprising the steps of:

placing the ceramic tile in a nano polishing machine, polishing the surface of the ceramic tile, and heating the surface of the ceramic tile to 60 ℃; then at a rate of 1.5mL/cm²The anti-skid liquid is dripped on the surface of the ceramic tile by the dripping amount, and 2 wool wheels are used for polishing; without cleaning the tile, at 1.5mL/cm²Dropping anti-skid fixing liquid on the surface of the ceramic tile by 6 sheepGrinding a hair wheel; and cleaning by using a wool wheel, and grinding and polishing for 8 minutes to obtain the anti-skid polished brick.

The anti-skid liquid comprises the following components in percentage by mass: 10% of organic acid, 35% of antiskid synergist, 23% of sodium dodecyl benzene sulfonate and 32% of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 35% of cationic water-based polymer and 65% of organic solvent.

Comparative example

The ceramic floor tiles of the common type on the market are selected as comparative examples, and the types of the comparative examples are shown in the table 1:

TABLE 1 comparative example types

Comparative example	Surface treatment method	Ceramic tile type
			Comparative example 1	The surface is polished	Polished brick
Comparative example 2	The surface is polished	Glazed brick
			Comparative example 3	Glazed floor tile	Smooth surface
Comparative example 4	Glazed floor tile	Matte finishNoodle

The antifouling performance of the polished tiles prepared in examples 1 to 4 and the antifouling performance of the tiles prepared in comparative examples 1 to 4 were respectively tested according to the GB/T3810.14 ceramic tile antifouling property testing method.

The sliding friction coefficient is tested by using a BOT-3000 friction coefficient tester, and the sliding block rubber adopted for testing is an SBR sliding block rubber block.

According to the requirements of ANSI A326.3-2017 standard, the wet dynamic friction coefficient in a horizontal state is not less than 0.42. The anti-skid safety risk ratings at the levels given in U.S. standard ANSI/NFSI B101.3-2012 are shown in table 2:

TABLE 2 Wet dynamic Friction coefficient and antiskid safety risk grading at horizontal state

Wet dynamic friction coefficient mu	Safety risks
		μ≥0.42	Low risk
0.30≤μ＜0.42	Intermediate risk (acceptable risk)
		μ＜0.30	High risk

The test results are shown in table 3:

TABLE 3 Wet dynamic Friction coefficient, antifouling rating, gloss test results

As can be seen from table 3, the anti-skid polished tiles prepared in examples 1 to 4 have a high wet dynamic friction coefficient in a horizontal state and a low safety risk level, compared with the common tiles with smooth surfaces on the market, and the anti-skid effect of the anti-skid polished tiles is even better than that of the matte unglazed tiles; the antifouling grade is 5 grades, the glossiness is more than 90 degrees, and the antifouling paint has brightness, antiskid and antifouling performance.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (9)

1. A method for improving the anti-slip performance of a polished tile, comprising the steps of:

s001, placing the ceramic tile in a nano polishing machine, polishing the surface of the ceramic tile, and heating the surface of the ceramic tile;

s002, dropwise adding an anti-slip liquid on the surface of the ceramic tile, and polishing until the anti-slip liquid is uniformly distributed on the ceramic tile;

s003, dropwise adding an anti-skid fixing liquid which reacts with the anti-skid liquid on the surface of the ceramic tile, and polishing until the anti-skid fixing liquid completely reacts with the anti-skid liquid;

and S004, cleaning, grinding and polishing to obtain a finished product.

2. The method of improving the slip resistance of a polished tile of claim 1, wherein said slip-resistant fluid comprises the following components in parts by mass: 1 to 25 percent of organic acid, 20 to 35 percent of antiskid synergist, 20 to 25 percent of anionic surfactant and the balance of organic solvent; the antiskid fixing liquid comprises the following components in percentage by mass: 30 to 35 percent of cationic water-based polymer and the balance of organic solvent.

3. The method of claim 2, wherein the anionic surfactant comprises one or both of sodium dodecyl sulfate, sodium dodecyl benzene sulfonate and sodium stearate.

4. The method for improving the slip resistance of a polished tile according to claim 1, wherein the polishing in step S001 is carried out to a tile surface temperature of 40 to 60 ℃.

5. The method for improving the slip resistance of a polished tile according to claim 1, wherein in step S002, 0.5 to 2mL of the slip-resistant solution is dropped per square centimeter; in the step S003, 0.5-2 mL of antiskid stationary liquid is dropwise added per square centimeter.

6. The method for improving the slip resistance of a polished tile according to claim 1, wherein the drop volume ratio of the anti-slip solution to the anti-slip fixing solution is 1: 1.

7. The method of improving the slip resistance of a polished tile of claim 1, wherein the grinding head comprises one of a wool wheel and a nylon pad.

8. The method for improving the slip resistance of a polished tile according to claim 1, wherein in step S004, the polishing speed is 3 to 10 minutes/m²。

9. An anti-slip polished tile produced by the method for improving the anti-slip property of a polished tile according to any one of claims 1 to 8.