JPH0317280A - Production of colored patterned sheet - Google Patents

Abstract

PURPOSE:To increase the thickness of an oxide film layer in the irradiated part and to change colors into the desired pattern by applying oxidation treatment to a part of a titanium film vapor-deposited on the surface of a base material and then locally irradiating the above part with laser beam of YAG, etc. CONSTITUTION:Titanium is vapor-deposited onto the surface of a base material 1, and a titanium film 2 of a prescribed thickness is formed. The above titanium film 2 is subjected to oxidation treatment, by which a part of the above film 2 is converted to titanium oxide film 3. Subsequently, the above titanium oxide film 3 is locally irradiated with YAG laser or Co2 laser light 5. By the above procedure, the thickness of a titanium oxide film 4 in the above irradiated part is increased, by which colors can be changed and the desired pattern can be formed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a method for manufacturing a color pattern board used for accessories, building materials, etc.

[Jubei technology]

Conventionally, the color steel plate manufacturing method is to apply T to stainless steel plate.
iC. A method of depositing a ceramic film such as TiN,
There is also a method of directly chemically etching titanium or stainless steel.

[Problem to be solved by the invention]

Regarding the above conventional TiN, TiC vapor deposition method, TiN
With TiC, only a golden color can be colored, and with TiC, only a blackish silvery white can be colored. Even if the film thickness is changed, it can only be colored the same color.

In the method of directly chemically etching the aluminum or stainless steel body, it can be colored in any desired color, but the unevenness of the surface gives it a metallic luster.

The present invention aims to provide a method for manufacturing a color pattern board that can solve the problems of the conventional methods described above.

[Means to solve the problem]

The method for producing a color pattern board of the present invention involves depositing titanium on the surface of a substrate made of stainless steel or the like, oxidizing the titanium film to make a part of it into a titanium oxide film, and then using YAG or CO.
Laser light is applied locally to the oxidized leather to create a pattern.

[Effect]

With titanium oxide, each color can be obtained by changing the thickness of the film. On the other hand, YAG (Ys A 11 s O It ) laser light and CO t laser light have the property of rapidly heating only the very surface layer of a substance.

In the present invention, a titanium film having a constant thickness of approximately X is formed by first depositing titanium on the surface of the substrate. This titanium film is oxidized to convert a part of it into a titanium oxide film, and a film having a certain color and a certain thickness is formed from the titanium oxide film and the titanium film. When YAG laser light or CO t laser light is irradiated onto a film with a constant thickness consisting of titanium oxide film and titanium film, the oxidation of the titanium film in the irradiated area is promoted, and the thickness of the titanium oxide film increases. becomes thicker, and a color different from that of the non-irradiated area is obtained.

〔Example〕

A first embodiment of the present invention will be described with reference to FIG.

As shown in FIG. 1(a), a stainless steel substrate 1 is installed in a vacuum evaporation apparatus, and the vacuum level is 5×10""5'l'o.
After creating a vacuum state of approximately rr, the temperature of the substrate 1 is raised to 350°C in a cabinet, and titanium ('r0) is evaporated by an electron beam to coat the surface of the substrate 1 with a titanium film 2. Next, a titanium film 2 is formed by heating and oxidation treatment. A part of the surface side is made into a titanium oxide film 3.

The thickness of the titanium oxide film 3 at this time is 1500 to 200 mm.
0A, and the thickness of the titanium film 2' was 1,500 to 20,000A. The color of this film was yellow-green.

Then, a YAG laser beam 5f:. Locally irradiate. As a result, a part of the titanium film 2' below the titanium oxide film 3 in the YAG laser irradiated part becomes titanium oxide 4, and the titanium oxide film layer in the irradiated part becomes thicker, and the color of this part becomes reddish-purple. Ta.

In this way, a colored patterned steel plate with reddish-purple areas on a yellow-green background was obtained.

In this example, the YAG laser output is 20 J/pulse, and the pulse width is 5 mls! ! c was used.

In the second embodiment of the present invention, titanium is deposited on the surface of a stainless steel substrate under the same conditions as in the first embodiment, and the titanium film is oxidized to a thickness of 1500.
~2000A. A titanium film with a thickness of 1500 to 2000A was made. The color of this film was yellow-green. Output 20J/pulse, pulse width 5 in oxygen atmosphere
Laser light from an s*see YAG laser was locally irradiated to oxidize a portion of the titanium film. The color of this laser irradiation area was blue.

In this way, a colored patterned steel plate with blue parts on a yellow-green background was obtained.

In the third embodiment of the present invention, titanium is deposited on the surface of a stainless steel substrate under the same conditions as in the first and second embodiments, and the titanium pus is oxidized to give a thickness of 1500% titanium oxide. ~2000A titanium film thickness 1500~200
A yellow-green film of 0A was produced. This film was locally irradiated with laser light from a COs laser having an output of 500 W and a wavelength of 10.6 μm in the atmosphere to oxidize a portion of the titanium film in that area. The color of this laser irradiated area was reddish-purple.

In this way, a colored patterned steel plate with reddish-purple areas on a yellow-green background was obtained.

However, in each of the above embodiments, YAG laser or CO
In addition to locally irradiating the laser beam of the v-laser in an appropriate pattern, masking the part of the titanium oxide film corresponding to the non-irradiated area with metal (in the case of a COy laser, masking the titanium oxide film with a thickness of 1 inch)
By irradiating the entire surface with laser light, it is possible to obtain a colored pattern board having a desired pattern or text in a color different from the base color.

In each of the above embodiments, a stainless steel plate is used for the substrate, but it goes without saying that the present invention is not limited to this.

(Effects of the Invention) In the present invention, titanium is vapor-deposited on the surface of a substrate, and this titanium film is oxidized to form a film consisting of a titanium oxide film and a titanium film. By partially irradiating, the titanium oxide film layer in the irradiated part is made thicker than in other parts. As a result, it is possible to obtain a colored pattern board on which a desired pattern with a color different from that of the base is formed.

[Brief explanation of the drawing]

Figure 1(a). (b) is an explanatory view showing the formation of a titanium film and a titanium oxide film in the first embodiment of the present invention. DESCRIPTION OF SYMBOLS 1...Substrate, 2.2'...Titanium film, 3...Titanium oxide film, 4...Titanium oxide film formed by laser light irradiation, 5...YAG laser light.

Claims (1)

[Claims] Titanium is deposited on the surface of the substrate, the titanium film is oxidized to make a part of it into a titanium oxide film, and a YAG laser or CO_2 laser beam is locally irradiated onto the oxidized titanium film to create a pattern. A method for producing a colored pattern board, characterized by the following.