JPH01173A - organic precious metal ink - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an organic noble metal ink, particularly an organic gold ink, which is used on the surface of ceramic products or glass products for decoration, electronic industry, etc.

(Prior Art and its Problems) It has been widely practiced to double the decorative effect of ceramic products such as pottery and glass products by drawing letters and figures using ink on the surface of the products.

When drawing such letters and figures, it is not just ink (ink such as gold or silver, which has the luster of precious metals, is also used to form so-called gold letters, etc., to create a more luxurious atmosphere. There is.

These organic noble metal inks are composed of, for example, a noble metal salt of a resin acid, its flux, and an epoxy resin as a binder (US Pat. No. 2,842,457).

Generally, binders for these organic noble metal inks include:
For low viscosity ink, natural rosin, asphalt,
Nitrocellulose, epoxy resin, etc. are used, and for high viscosity ink, ethyl cellulose, polystyrene, acrylic resin, etc. are used.

Among these binders, natural rosin, asphalt, nitrocellulose, epoxy resin used in low-viscosity inks, and polystyrene used in high-viscosity inks are used in large quantities to give the ink an appropriate viscosity. For example, about 10 to 20% by weight), pinholes due to outgassing are likely to occur, resulting in poor surface condition of the product. Furthermore, ethyl cellulose, acrylic resin, etc. used for high viscosity inks separate in the ink and are not uniformly dispersed, making it impossible to obtain a smooth surface.

(Purpose of the Invention) The present invention uses a rosin derivative resin with higher adhesiveness in place of the epoxy resin conventionally used as a binder for organic noble metal inks, thereby reducing the amount of binder used and making ceramics. An object of the present invention is to provide an organic noble metal ink that can provide a good surface condition without producing pinholes when applied to surfaces such as the like.

Means for Solving Problem C) The present invention is an organic noble metal ink characterized by containing at least one noble metal salt of a resin acid, a rosin derivative resin as a binder, and a solvent.

The present invention will be explained in more detail below.

The noble metal salts of resin acids include gold, platinum, silver, palladium, rhodium, iridium, ruthenium, and alloys thereof, which have been widely used in the past, and one or more of these noble metal salts of resin acids are used.

The rosin derivative resin of the present invention is a general term for substances obtained from natural rosin that has been chemically treated to have a higher viscosity than natural rosin.

The rosin derivative resins include, for example, rosin glycerin ester, rosin pentaeryth'J)-lx ester, hydrogenated rosin methyl ester, hydrogenated rosin triethylene glycol ester, hydrogenated rosin glycerin ester, Hydrogenated rosin pentaerythritol ester, polymerized rosin, polymerized rosin glycerin ester, polymerized rosin pentaerythritol ester, maleic acid-modified rosin ester, maleic acid-modified rosin pentaerythritol ester, and maleic acid-modified rosin. Contains glycerin ester.

Further, in the present invention, in addition to the noble metal salt of the resin acid and the rosin derivative resin, a solvent for these components, such as a terpene alcohol, is included as an essential component. The solvent is preferably a volatile substance that dissolves the substance and dries in a relatively short time when an ink containing the substance is applied to ceramics or the like.

The organic noble metal ink of the present invention can contain base metal salts of resin acids, alkyd resins, etc. in addition to at least one noble metal salt of the resin acid and the essential components of the rosin derivative resin.

In the organic noble metal ink of the present invention, instead of the conventional low viscosity natural rosin etc., high viscosity rosin Li '771 is used.
Since the body resin is used as a binder, the amount of binder used can be reduced from the conventional 10 to 20% by weight to 1 to 5% by weight, and organic noble metal ink with the same viscosity can be used with a smaller amount of binder. It can be prepared with

Therefore, pinholes caused by the binder or unevenness caused by non-uniform dispersion of the binder do not occur on the surface of products coated with organic noble metal ink, making it possible to use organic noble metal ink for decorative and electronic industry applications. Performance is improved.

Examples of the organic noble metal ink according to the present invention will be described below, but the examples are not intended to limit the present invention.

(Example 1) Organic gold ink was prepared by mixing the following components.

Resin metallization...20% by weight Rhodium resinate...0.05% by weight Bismuth resinate...0.3% by weight Chromium resinate...0.04% by weight Antimony resinate...o, o2mit % Vanadium resin acid...0.03% Alkyd resin...°6.0
Heavy ■% Heavy melamine resin...3.0% by weight Glycerin ester of rosin modified with maleic acid (rosin derivative resin)...2.0% by weight Terpene alcohol...remainder.

The ink having appropriate viscosity was applied to the surface of ceramic or glass using a brush or screen printing, and baked at 500 to 900°C for 10 to 30 minutes.

On the other hand, an organic gold ink having the same composition as the above-described composition except that 2.0% by weight of the rosin derivative resin was replaced with 20% by weight of natural rosin was applied onto ceramics and fired under the same conditions.

The ink of this example containing a rosin derivative resin adhered uniformly to the entire coated part of the ceramic or glass surface, forming a smooth surface. Although it has a moderate viscosity, after it was applied and cured, fine pores appeared on the coated surface, which were thought to be caused by the natural rosin, and the surface was damaged.

(Example 2) An organic platinum ink was prepared by mixing the following components.

Platinum resinate...15% by weight Rhodium resinate...0.05% by weight Bismuth resinate...0.5% by weight Chromium resinate...0.06% by weight Antimony resinate...0 .03% by weight Vanadium resin acid...0.05% by weight Alkyd resin...6.5% by weight Urea melamine resin...3.0% by weight Rosin pentaerythritol ester (rosin derivative resin)...3. 0% by weight Terpene alcohol...Remainder.

The ink having an appropriate viscosity was applied to the surface of ceramics or glass using a brush or screen printing, and baked at 500 to 900°C for 10 to 30 minutes.

On the other hand, an organic platinum ink having the same composition as described above except that 3.0% by weight of the rosin derivative resin was replaced with 10% by weight of ethyl cellulose was applied onto ceramics and glass under the same conditions and fired.

The ink of this example containing a rosin derivative resin adhered uniformly to the entire coated portion of the ceramic or glass surface, forming a smooth surface.

(Effects of the Invention) Since the present invention uses a rosin derivative resin with higher viscosity than conventional binders as a binder for organic noble metal ink, it is possible to greatly reduce the amount of binder mixed into organic noble metal ink. . Therefore, if a large amount of the binder is used, it is possible to prevent the occurrence of aggregates caused by the binder or pinholes due to outgassing, which tend to occur on the ink coated surface after ink baking, and it is possible to provide a smooth coated surface without unevenness. Therefore, the organic noble metal ink according to the present invention has great value especially for decoration and electronic industry.

Claims (3)

[Claims] (1) An organic noble metal ink containing at least one noble metal salt of a resin acid, a rosin derivative resin as a binder, and a solvent. (2) Claim 1, wherein the noble metal of the noble metal salt is one or more noble metals selected from the group consisting of gold, platinum, silver, palladium, rhodium, iridium, ruthenium, and alloys thereof. organic precious metal ink. (3) The rosin derivative resin includes rosin glycerin ester, rosin pentaerythritol ester, hydrogenated rosin methyl ester, hydrogenated rosin triethylene glycol ester, hydrogenated rosin glycerin ester, and hydrogenated rosin ester. Consisting of pentaerythritol ester, polymerized rosin, glycerin ester of polymerized rosin, pentaerythritol ester of polymerized rosin, maleic acid-modified rosin ester, pentaerythritol ester of maleic acid-modified rosin, and glycerin ester of maleic acid-modified rosin. An organic noble metal ink according to claim 1 or 2 selected from the group.