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Quick renovating technology for thin pasting of ultrathin aluminum-wood composite board on indoor ceramic tile glaze surface

A technology for composite boards and glazes, applied in the direction of non-ionic surface active compounds, adhesive types, detergent compositions, etc., can solve problems such as time-consuming, base layer damage, and large manpower and resources, and achieve decorative Strong effect, ultra-light weight, cost-saving effect

Inactive Publication Date: 2020-01-14
广东立盈新材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are following defects in this method: 1, the noise is big, and a large amount of construction wastes are produced
2. It is easy to damage the substrate and pipeline
When chiseling off the original tiles, it is easy to cause damage to the base layer, resulting in cracking of the wall or ground base, and even damage to the pipeline leading to leakage
3. Time-consuming and expensive
Digging bricks, removing construction debris and re-plastering are labor-intensive and resource-intensive

Method used

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  • Quick renovating technology for thin pasting of ultrathin aluminum-wood composite board on indoor ceramic tile glaze surface
  • Quick renovating technology for thin pasting of ultrathin aluminum-wood composite board on indoor ceramic tile glaze surface
  • Quick renovating technology for thin pasting of ultrathin aluminum-wood composite board on indoor ceramic tile glaze surface

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0052] Take 40 parts of alumina micropowder, 60 parts of water, 0.3 parts of BYK-346, 0.7 parts of BYK-425, add the above materials in sequence, and stir evenly, the speed is controlled at about 500 rpm, and the time is controlled at about 5 minutes. Get an aqueous cleaner.

[0053] Take 25 parts of nano-silicone resin, 75 parts of edible alcohol, 0.3 parts of Tego-245, 0.3 parts of Tego-410, add the above materials in sequence, and stir evenly. The speed is controlled at about 700 rpm and the time is controlled at about 5 minutes. Prepare tile interface agent 1.

[0054] Take 85 parts of water-based epoxy resin emulsion, 3 parts of Borchi Gel-0620, 0.3 parts of BYK-346, 12 parts of water, add the above materials in sequence, and stir well, the speed is controlled at about 800 rpm, and the time is controlled at 10 minutes Take 8 parts of the A component, and 1 part of the water-based amine curing agent, and stir it with a manual portable mixer for about 10 minutes to prepare ...

Embodiment 2

[0059] Take 30 parts of alumina micropowder, 70 parts of water, 0.1 part of BYK-346, 0.5 part of BYK-425, add the above materials in sequence, and stir evenly, the speed is controlled at about 500 rpm, and the time is controlled at about 5 minutes. Get water-based cleaning agent 2.

[0060] Take 20 parts of nano-silicone resin, 80 parts of edible alcohol, 0.2 parts of Tego-245, 0.2 parts of Tego-410, add the above materials in sequence, and stir evenly. The speed is controlled at about 700 rpm and the time is controlled at about 5 minutes. Prepare tile interface agent II.

[0061] Take 80 parts of water-based epoxy resin emulsion, 5 parts of Borchi Gel-0620, 0.3 parts of BYK-346, 15 parts of water, add the above materials in sequence, and stir well, the speed is controlled at about 800 rpm, and the time is controlled at 10 minutes Take 5 parts of the A component, and 1 part of the water-based amine curing agent, and stir it with a manual portable mixer for about 10 minutes to...

Embodiment 3

[0065] Take 50 parts of alumina micropowder, 50 parts of water, 0.5 part of BYK-346, 1 part of BYK-425, add the above materials in sequence, and stir evenly, the speed is controlled at about 500 rpm, and the time is controlled at about 5 minutes. Get water-based cleaning agent 3.

[0066] Take 30 parts of nano-silicone resin, 70 parts of edible alcohol, 0.5 parts of Tego-245, 0.5 parts of Tego-410, add the above materials in sequence, and stir evenly, the speed is controlled at about 700 rpm, and the time is controlled at about 5 minutes. Prepare tile interface agent 3.

[0067] Take 90 parts of water-based epoxy resin emulsion, 3 parts of Borchi Gel-0620, 0.3 parts of BYK-346, 7 parts of water, add the above materials in sequence, and stir evenly, the speed is controlled at about 800 rpm, and the time is controlled at 10 minutes Take 8 parts of the A component, and 1 part of the water-based amine curing agent, and stir it with a manual portable mixer for about 10 minutes to ...

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Abstract

The invention discloses a quick renovating technology for thin pasting of an ultrathin aluminum-wood composite board on an indoor ceramic tile glaze surface. The technology includes the following steps that Step 1: the glaze surface of an original ceramic tile is cleaned and polished; Step 2: the glaze surface is coated with a ceramic tile interface agent; Step 3: the glaze surface and the back surface of the ultrathin aluminum-wood composite board are coated with water-based AB glue; Step 4: the ultrathin aluminum-wood composite board is attached to the glaze surface and is pressed hard, andthe ultrathin aluminum-wood composite board and the original ceramic tile form an integral whole by the aid of the strong initial bonding power of the water-based AB glue; Step 5: caulking processingis performed with a caulking agent. According to the technology, the original ceramic tile is renovated through gluing of the ultrathin aluminum-wood composite board and the original ceramic tile, thesurface decoration is upgraded from the ceramic tile to the aluminum-wood composite board, and the decoration effect is better. The aluminum-wood composite board has the characteristics of high impact resistance and wear resistance, environmental protection, fire resistance, water resistance and the like, the increased thickness is small after renovation, and normal use of fixedly-mounted bodiessuch as doors and the like are not affected. Besides, with adoption of the technology, the renovation speed is high, the construction process is free of noises, building waste is not produced, and a building base and pipelines are not damaged.

Description

technical field [0001] The invention relates to the field of building decoration, in particular to a rapid renovation process for ceramic tiles without knocking bricks, in particular to a rapid renovation process for indoor ceramic tiles with thin glazed surfaces and ultra-thin aluminum-wood composite boards. Background technique [0002] As a traditional finishing material, tiles are widely used indoors and outdoors. The vigorous development of ceramic tile technology is reflected in better quality and more beautiful decorative effects. With the improvement of people's living standards, higher requirements are put forward for the decorative effect of indoor stone materials. In the renovation project of some buildings, it is often necessary to renovate the original ceramic tiles (old ceramic tiles). [0003] At present, the general method of tile renovation is: chisel off the original tiles, repair the damaged base layer, and then paste new tiles. There are following defe...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04G23/02E04F13/077E04F13/21C09J163/00C11D1/82C11D3/37C11D3/12C11D3/60
CPCC09J163/00C11D1/82C11D3/1213C11D3/3726E04F13/0866E04F13/0885E04G23/0296
Inventor 程金玉
Owner 广东立盈新材料有限公司