WO2001009051A1

WO2001009051A1 - Decorative coating

Info

Publication number: WO2001009051A1
Application number: PCT/CZ2000/000051
Authority: WO
Inventors: Jindřich MUSIL; Jaromír KUBIŠTA
Original assignee: ZIMA AS
Current assignee: ZIMA AS
Priority date: 1999-07-29
Filing date: 2000-07-26
Publication date: 2001-02-08
Anticipated expiration: 2002-01-29
Also published as: CZ269399A3; CZ287571B6; AU6146700A

Abstract

A method for creating a decorative coating on a solid substrate using a magnetron sputtering technique, which is characterized by pre-treating the substrate surface in a microwave discharge, and consequently applying the decorative coating on the substrate without the substrate heating up. A protective layer that is transparent in the optic range of the frequency spectrum may cover the decorative coating. The thickness of the transparent protective layer may be used for controlling the resulting colour shade of the decorative layer. Textured glass with a coating created by this method, with the said coating made e.g. of stainless steel, or with the said coating made of brass or aluminium bronze, which may, if it is required, be covered by a transparent protective layer.

Description

Decorative Coating

Technical Field

This invention relates to the area of technology of creating a decorative coating on solid materials using a magnetron sputtering method, particularly on glass, producing textured glass in such a way

Background Art

At the present time, physical processes caught under a vacuum, particularly by evaporating or sputtering solid material, usually create decorative coatings However, ensuring good adhesion of the decorative layer to the coated object-substrate is a major problem as is protecting the surface of the decorative layer against mechanical damage - scratching as well as against chemical degradation due to contact with an atmosphere of varying humidity and with various cleaning agents, e g detergents, while it is being cleaned and polished The adhesion of layers is better when

1) depositing layers proceeds at temperatures of about 400°C and higher, and/or

2) the substrate is divided from the decorative layer by an interlayer, e g by a titanic interlayer of Ti paint which is a metallic titanium colour, or by an interlayer of TiN -titanium nitride which is a golden colour

However, both these solutions are characterized by serious limitations in mam applications For instance, a high temperature cannot be used when depositing decorative layers in case it will only be deposited on a selected part of the surface, l e on an object, which has a surface that is partially covered by masking vamish. and which cannot be exposed to high temperatures and must be removed after the decorative surface has been deposited For example, this interlayer cannot be used for depositing decorative layers on optically transparent materials like glass when a decorative layer of the same colour is required on both sides, i e on the surface of the layer as well as on surface of the glass, e g in the case of cups, vases, etc Moreover, at present, a protective coating for protecting a decorative layer against mechanical damage and chemical degradation is not satisfactorily managed

Therefore, some new and simple methods are being sought, which would allow for decorative layers to form on the surface of objects with good adhesion without heating up the object to be coated, thereby protecting the decorative coating with a high-quality optically transparent layer These solutions are needed for creating decorative layers, particularly on glass, ceramics, plastics, varnishes, cloth, thin dielectric foils and on other materials sensitive to heat

Disclosure of Invention

Deficiencies in the present state of technology have been solved by a method for creating a decorative coating on the solid substrate using a magnetron sputtering method according to the invention The gist of the invention resides in pre-treating the substrate surface in a microwave discharge and consequently applying the decorative coating without heating the substrate up

The substrate is pre-treated in a microwave discharge, burning in oxygen, or a gas mixture containing oxygen, nitrogen, and/or fluorine, at a pressure ranging from 0 1 to 1000 Pa The decorative coating is sputtered on the substrate, which has been pre- treated in this way, in an inert atmosphere, e g in argon, or in the presence of a reactive medium, from a cathode made of one element, or of an alloy of two or more elements, at a pressure ranging from 0 05 Pa to several Pa

For protecting the decorative coating from external damage, if such protection is needed, it should be coated by a protective layer, transparent in the optic range of the frequency spectrum, preferentially by a protective layer of Tiθ2, or Siθ2, or AI2O3, or Si3N4 or by a carbon-based protective layer

The thickness of a protective layer, transparent in the optic range of the frequency spectrum, may be used to control the resulting colour shade of the whole decorative layer consisting in this case of a decorative coating and protective layer A decorative coating may be applied on the surface of a substrate, partially covered by a masking varnish, which has to be removed after a coating or, as the case may be, a protective optically transparent layer has been created.

By using this invention, it is even possible to have textured glass with a decorative coating of stainless steel, which may be covered by a protective layer made, for instance, of stainless steel nitride. Another significant result is having textured glass with a decorative coating made of brass or aluminium bronze, which may be covered by a protective layer transparent in the optic range of the frequency spectrum. The basic advantage of the method of this invention is the good adhesion of the coating applied on an unheated substrate. This is achieved by exposing the substrate surface to the influence of the plasma of a microwave discharge. The microwave discharge is generated by microwave performance, usually at a frequency of 2.45 GHz in the working gas, i.e. in oxygen, nitrogen, or a gas mixture containing oxygen, nitrogen, and/or fluorine, at a pressure ranging from 0.1 to 1000 Pa. In the plasma of the microwave discharge, the activated atoms, excited molecules, and radicals are generated very effectively in comparison with other kinds of low-pressure discharges. They effectively interact with the surfaces of objects inserted into the microwave discharge. Their activation occurs when the plasma comes into contact with the surfaces of objects. The impact of their influence is manifested in a significant change of properties, particularly in the wet ability of the activated surface.

Its own decorative coating may be protected by a layer which is transparent in the optic range, e.g. of T1O2, or Siθ2, or AI2O3, or Si3N4, or one which is carbon-based. This layer may be created by reactive magnetron sputtering in a mixture of argon and oxygen in the case of layers based on oxides. In applications where a decorative or reflexive coating is made of Ti, Si, Al, C, the protective layer is sputtered from the same disk as a decorative coating and only oxygen or nitrogen is added to the argon. If a protective layer is thinner than - 4 -

approximately 1 μm, it is possible to control by its thickness the colour of the whole decorative coating.

Example of Invention Here is one example of this method being performed according to the invention described. The technology for creating decorative coating consists in this example of the following three steps:

1 ) Pre-treating the glass substrate surface in a microwave discharge generated by a 500 W microwave performance at a frequency of 2.45 GHz in a working gas of N2O2_: at a pressure of approximately 22 Pa for a period of 5 minutes.

2) Magnetron sputtering the decorative coating from a disk, made of stainless steel, on the glass surface, pre-treated in the way outlined above without the substrate surface heating up.

3) Covering the decorative coating, sputtered in the way outlined above, by an optically transparent layer of carbon deposited from a spray graphite magnetron disk in an argon discharge at a pressure of 0.5 Pa.

Industrial Applicability

The invention can be applied in any industry where the decorative treatment of solid materials is required, particularly in the production of glass objects involving the decorative treatment of glass.

(End of description)

Claims

1 A method for creating a decorative coating on a solid substrate using a magnetron sputtering method characterized by pre-treating the substrate surface in a microwave discharge and consequently applying the decorative coating on the substrate without the substrate heating up

2 A method according to claim 1 characterized by pre-treating the substrate in a microwave discharge burning in oxygen or a gas mixture containing oxygen. nitrogen, and/ or fluorine, at a pressure ranging from 0 1 to 1000 Pa

3 A method according to claims 1 and 2 characterized by sputtering a decorative coating on the pre-treated substrate in an inert atmosphere from a cathode made of one element, or of an alloy of two or more elements, at a pressure ranging from 0 05 Pa to several Pa

4 A method according to claims 1 and 2 characterized by sputtering a decorative coating on the pre-treated substrate in the presence of a reactive medium

5 A method according to any of claims 1 to 4 characterized by covering a decorative coating using a protective layer that is transparent in the optic range of the frequency spectrum

6 A method according to claim 5 characterized in that the resulting colour shade of the decorative layer is controlled by the thickness of the protective layer that is transparent in the optic range of the frequency spectrum

7 A method according to any of claims 1 to 6 characterized by applying a decorative coating on a substrate surface, partially covered by masking varnish that is removed after the coating and, as the case may be, an optically transparent protective layer have been created

8. Textured glass characterized in that it is provided with a coating created using a method according to any of claims 1 to 7 with the said decorative coating being made of stainless steel.

9. Textured glass according to claim 8 characterized in that the decorative coating is covered by a protective layer made of stainless steel nitride.

10 Textured glass characterized in that it is provided with a coating created using a method according to any of claims 1 to 7 with the said decorative coating being made of brass or aluminium bronze.

11. Textured glass according to any of claims 8 to 10 characterized in that a protective layer that is transparent in the optic range of the frequency spectrum covers the decorative coating.

(End of claims)