CN105671513A - Novel vacuum color coating process - Google Patents

Abstract

The invention discloses a novel vacuum color coating process. The novel vacuum color coating process comprises the following steps that a film layer is deposited on a substrate through a traditional vacuum coating method; then the substrate is put into a vacuum cavity; O3 is introduced into the vacuum cavity constantly, and the air pressure inside the cavity is maintained between 10<-1>-10<2> Pa; or O2 is introduced into the vacuum cavity constantly, the air pressure inside the cavity is maintained between 10<-1>-10<2> Pa, and O2 is converted into O3 through a corona discharge method or an ultraviolet radiation method; and the substrate is processed, and a color film is obtained on the substrate after processing. The decorative color film prepared through the film process is more bright and rich in color, is good in color durability and also has the cost advantage of batch processing. The process can be widely applied to the fields of vacuum color decorative coating and surface processing.

Description

A kind of novel vacuum colour coating process

Technical field

The present invention relates to a kind of technique for vacuum coating, particularly relate to a kind of novel vacuum colour coating process, belong to vacuum polychromy plated film and field of surface treatment.

Background technology

Vacuum coating is one of advanced process for treating surface, and it mainly includes evaporation coating, sputter coating and ion film plating, and the application in plated film field is more and more extensive. Vacuum coating, because of its colored film layer metal reflective color and luster, increases the beautiful degree of product appearance, and progressively replaces traditional decoration coating process, such as screen printing technique. Adopt vacuum coating to have been able to prepare a variety of bright rete, and be widely used on the plating piece of the multiple base materials such as metal, glass, pottery, plastics. Stained glass in the construction material of our productive life, appliance shell, digital product spare and accessory parts, accessory; All there is application technique for vacuum coating.

In traditional polychromy coating process, the intrinsic normal complexion that the principle of main employing is different materials utilizes film thickness to interfere the light reflecting a certain particular color. Although traditional polychromy coating process has obtained flourish, but still comes with some shortcomings. Utilizing the thicknesses of layers that the decorating film of the intrinsic color of material needs thicker, be the most directly required material and energy increase, What is more affects the adhesion of rete and substrate. And utilize film thickness to interfere the light reflecting a certain particular color, and in the process that the uniformity requirement of interfering layer thin film is higher, otherwise easily cause color difference; It is difficult to be suitable for particularly with this technique of some special-shaped products.

Summary of the invention

It is an object of the invention to provide a kind of novel vacuum colour coating process, it is possible to achieve plate colour film on a variety of substrates, substrate can be glass, metal, pottery or plastics. The colored film layer plated and substrate junction are made a concerted effort strong, and color durability degree is good; And final products color can be controlled by vacuum coating thickness and subsequent treatment process, it is possible to produce the products such as aubergine, pink, golden yellow, green, blueness and Lycoperdon polymorphum Vitt.

A kind of novel vacuum colour coating process of the present invention, comprises the steps: employing traditional vacuum film plating process depositional coating on base material, then places the substrate within vacuum cavity, be continually fed into O₃, maintain intracavity air pressure 10^-1～10²Pa, or it is continually fed into O₂, maintain intracavity air pressure 10^-1～10²Pa, by corona discharge method or ultra-vioket radiation method by O₂It is converted into O₃, base material is processed, on base material, after process, obtains colour film.Traditional vacuum coating process can be vacuum evaporation, magnetron sputtering, any one in multi-arc ion coating. In technique scheme, described thin film plating material can be Cu, Ti, Al, Zr, Si etc., and the alloy material of above-mentioned material.

The beneficial effects of the present invention is:

The present invention deposits thin film by traditional vacuum plated film on plating piece surface, then carries out novel thin film vacuum processing technique, and namely in vacuum cavity, regulate the flow of vital energy O at the place of being continually fed into₃Process film surface, finally realize product surface color. Owing to rete adopts vacuum coating technology, product appearance seems have gorgeous metal reflective color and luster, graceful especially attractive in appearance; Final products color can be controlled, it is possible to produce the shades of colours such as aubergine, pink, golden yellow, green, blueness and Lycoperdon polymorphum Vitt by adjustment thicknesses of layers and subsequent treatment process.

Present invention process can apply to the preparation of the stained glass in construction material, appliance shell, digital product spare and accessory parts, accessory; Institute's film plating layer is monofilm, and technique is simple, and cost reduces, and is prone to the big production of bulk industrial.

Detailed description of the invention

The invention will be further described with the following Examples.

Embodiment 1

Pvd equipment adopts plain edition flat target magnetron sputtering apparatus, and 4N level metal copper target is as sputtering target material, and shielding power supply adopts DC source.

Its concrete preparation process is as follows:

(1) substrate is carried out/surface active;

(2) incoming sputtering reaction chamber;

(3) sputtering reaction chamber being evacuated to air pressure is 10^-4Below Pa;

(4) it is filled with Ar, is regulated the gas flow being filled with by flow controller, make the air pressure in reaction chamber be within the scope of 0.3-0.7Pa;

(5), after cavity stable gas pressure to be sputtered, open shielding power supply, and to arrange sputtering power be 600w;

(6) control sputtering time, prepare the Copper thin film of 50/100/200nm;

(7) Copper thin film has deposited rear sample next vacuum chamber incoming;

(8) vacuum chamber is filled with O₂, regulated the gas flow being filled with by flow controller, make the air pressure in reaction chamber be in 10^-1～10²Within the scope of Pa;

(9) after vacuum chamber internal gas pressure is stable, opening ultra violet lamp sample 3 minutes, uitraviolet intensity is set to 0.5-1W/cm²。

Experimental results reduction is:

Sample number into spectrum	Film material	Film thickness	Processing mode	Color
					1	Cu	50nm	Ultra-vioket radiation	Aubergine
2	Cu	100nm	Ultra-vioket radiation	Golden yellow
					3	Cu	200nm	Ultra-vioket radiation	Blue

Embodiment 2

Pvd equipment adopts plain edition vacuum evaporation coating film device, adopts electron beam mode of heating, and analytically pure copper powder is as evaporation source.

Its concrete preparation process is as follows:

(1) substrate is carried out/surface active;

(2) substrate of cleaning is fixed on the specimen holder of vacuum evaporation room;

(3) analytically pure copper powder is put in the crucible of electron-beam evaporator vacuum chamber;

(4) making copper powder evaporate with electron beam heating and be deposited on substrate, during deposition, gas pressure in vacuum is 10^-2-10^-3Pa, vacuum chamber temperature 200-300 DEG C, electron beam line is between 0.1-0.2mA;

(5) control evaporation time, prepare the Copper thin film of 100nm;

(6) Copper thin film has deposited rear sample next vacuum chamber incoming;

(7) vacuum chamber is filled with O₂, regulated the gas flow being filled with by flow controller, make the air pressure in reaction chamber be in 10^-1～10²Within the scope of Pa;

(8) after vacuum chamber internal gas pressure is stable, opening ultra violet lamp sample 3/5/7 minute, uitraviolet intensity is set to 0.5-1W/cm²。

Experimental results reduction is:

Sample number into spectrum	Film material	Film thickness	Ultra-vioket radiation	Color
					1	Cu	100nm	3 minutes	Aubergine
2	Cu	100nm	5 minutes	Golden yellow
					3	Cu	100nm	7 minutes	Blue

The above; it is only presently preferred embodiments of the present invention; not in order to limit the present invention, every any trickle amendment, equivalent replacement and improvement above example made according to the technical spirit of the present invention, should be included within the protection domain of technical solution of the present invention.

Claims (5)

1. vacuum colour coating process one kind novel, it is characterised in that: comprise the steps: employing traditional vacuum film plating process depositional coating on base material, then place the substrate within vacuum cavity, be continually fed into O₃, maintain intracavity air pressure 10^-1～10²Pa, obtains colour film on base material after process.

2. vacuum colour coating process according to claim 1, it is characterised in that: described traditional vacuum film plating process is any one in vacuum vapor deposition method, magnetron sputtering method, multi-arc ion coating.

3. vacuum colour coating process according to claim 1, it is characterised in that: after adopting traditional vacuum film plating process depositional coating, base material is placed in vacuum cavity, is continually fed into O₂, again through corona discharge method or ultra-vioket radiation method by O₂It is converted into O₃, base material is processed.

4. vacuum colour coating process according to claim 1, it is characterised in that: plating material used during described depositional coating is one or more the alloy material in Cu, Ti, Al, Zr, Si.

5. vacuum colour coating process according to claim 1, it is characterised in that: described base material is glass, metal, pottery or plastics.