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A fully enclosed anti-oxidation aluminum alloy mosaic production process

A production process and aluminum alloy technology, applied in the field of fully enclosed oxidation-resistant aluminum alloy mosaic production process, can solve the problems of oxidation yellowing and blackening, unsatisfactory use aging, etc., to increase production costs, improve use aging, and improve performance. Effect

Inactive Publication Date: 2017-12-08
谢军
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This kind of aluminum alloy mosaic with no anti-oxidation treatment on the bottom, sides and cuts is not suitable for use in humid environments with relatively high acidity and alkalinity such as bathrooms, because it will quickly oxidize, yellow and black in humid environments. It is in a dry indoor environment, and it is not satisfactory in terms of service life

Method used

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  • A fully enclosed anti-oxidation aluminum alloy mosaic production process
  • A fully enclosed anti-oxidation aluminum alloy mosaic production process
  • A fully enclosed anti-oxidation aluminum alloy mosaic production process

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0053] Embodiment 1: A fully enclosed anti-oxidation aluminum alloy mosaic production process, including the following steps:

[0054] (1) Do anti-oxidation treatment on the entire surface of the aluminum alloy profile or plate, and then use the existing mature technology to obtain a decorative effect on the top surface of the aluminum alloy profile or plate, and then use resin to obtain anti-oxidation on the top surface of the aluminum alloy profile or plate Protective film or protective layer, the specific operation is as follows:

[0055] (1) Do anti-oxidation treatment on the entire surface of aluminum alloy profiles or plates by immersion in resin solution or by oxidation, electroplating, electrophoresis or chemical plating of existing mature processes to obtain an anti-oxidation protective film or protective layer; The specific operation steps for obtaining the anti-oxidation protective film or protective layer by soaking in resin solution are as follows: after cleaning ...

Embodiment 2

[0068] Example 2: A fully enclosed oxidation-resistant aluminum alloy mosaic production process, the basic steps of which are the same as in Example 1, the difference is that the fixtures used in step A of step (3) are different. In this example, the described The fixture includes a support plate II9 and a K2 set of clamping components for clamping aluminum alloy mosaic particles. The set of clamping components is composed of a clamping long rod 7 and N single clamps 8, N≥K1, and the The clamping long rod is fixed on the operation panel 5 through the support plate II9. The single clamp 8 is composed of a spring 81 fixed on the operation panel and a clamping short rod 82 vertically connected to the spring. The aluminum alloy is not clamped. When mosaic particles, the spring 81 is parallel to the clamping long rod 7, and the single clip is arranged so that the clamping short rod 82 is located between the clamping long rod 7 and the spring 81 of the same group, and the spring and ...

Embodiment 3

[0071] Example 3: A fully enclosed anti-oxidation aluminum alloy mosaic production process, the basic steps of which are the same as in Example 1, the difference is that the clamps used in step A of step (3) are different. In this example, the described The fixture includes a clamping assembly for clamping aluminum alloy mosaic particles, the set of clamping assemblies is composed of M pairs of single clamps 8, M=1-10, preferably M=1-3, the clamping The assembly is provided with a K1×K2 group. The single clamp is composed of a spring 81 fixed on the operation panel and a clamping short rod 82 vertically connected to the spring. When the aluminum alloy mosaic particles are not clamped, the mutual cooperation Each pair of single clips is installed in a shape where the spring is on the outside and the clamping short rod is on the inside. The horizontal distance H3 between the two springs is 2 times larger than the horizontal distance D1 between the two side wall outer surfaces of ...

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Abstract

The invention relates to a totally-closed anti-oxidation aluminum alloy mosaic production process which comprises the following steps: (1) in a first manner, firstly performing anti-oxidation treatment on a whole surface, then making a decoration effect, and then preparing an anti-oxidation protection film on a top surface from resin, or in a second manner, firstly making a decoration effect, preparing an anti-oxidation protection film on a top surface from resin, and then performing anti-oxidation treatment on a whole surface, or in a third manner, firstly making a decoration effect, and then performing anti-oxidation treatment on a whole surface; (2) according to a specific size requirement, cutting a treated aluminum alloy section or plate to obtain aluminum alloy mosaic particles; and (3) performing notch anti-oxidation treatment on the cut aluminum alloy mosaic particles. Compared with the prior art, the totally-closed anti-oxidation aluminum alloy mosaic production process has the advantages that by only increasing two procedures, totally-closed anti-oxidation aluminum alloy mosaic can be prepared, and not only is the mosaic suitable for moisture environments such as a bathroom with relatively large acid-base property, but also the service life of the mosaic in an indoor drying environment is prolonged.

Description

technical field [0001] The invention relates to a mosaic production process, in particular to a fully enclosed anti-oxidation aluminum alloy mosaic production process. Background technique [0002] At present, aluminum alloy mosaics made of aluminum alloy profiles or plates are used in the market as raw materials. Their defects are that the cutouts are not treated with anti-oxidation or the bottom, sides and cutouts are not treated with anti-oxidation. The main reason is that there is no anti-oxidation treatment in this field There is a relatively simple, economical and effective bottom, side and incision anti-oxidation treatment production process. If the existing surface treatment method is used to obtain the bottom, side and incision anti-oxidation protective film or protective layer, the production cost will be greatly increased. Therefore, from Considering the economic cost, the existing aluminum alloy mosaic processing enterprises have to choose to give up the anti-oxi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B05D5/00B44C1/14
Inventor 谢军
Owner 谢军