JPH0562630B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION OBJECTS OF THE INVENTION The present invention relates to ink compositions for writing instruments, marking pens, stamps and recorders, in particular for use in adhesive tapes, paraffin waxed paper or pressure-sensitive paper. It is possible to write or mark on surfaces treated with paraffin wax or silicone resin, such as adhesive paper release paper, without being repelled, or when writing or marking on resins such as polyethylene, polypropylene, polyacetal, etc. It relates to an ink composition that is not easily erased by friction and has good leveling properties when written on impermeable surfaces such as plastics, ceramics, and metals.

When you write or mark (hereinafter simply referred to as writing) on adhesive tape, paraffin paper, release paper, etc. (hereinafter referred to as water-repellent materials), the ink is repelled and the handwriting or mark is It is difficult to read, and there are problems with leveling when writing on non-porous surfaces such as plastic, ceramics, and metal.

The ink composition of the present invention improves the above-mentioned drawbacks, and allows clear writing on the surfaces of ordinary paper, boards, plastics, ceramics, and metals, as well as adhesive tapes, paraffin paper, release paper, and candles. We succeeded in obtaining an ink composition with good leveling properties when written on non-penetrating surfaces such as plastics, ceramics, and metals.

Structure of the Invention The alkylphenol resin, phenol-modified xylene resin, and phenol/terpene resin (hereinafter referred to as phenolic resins) that can be used in this invention must be completely soluble in aliphatic hydrocarbons and/or alicyclic hydrocarbons. is necessary, and it is advantageous to use resins that are produced in large quantities and are widely used as the phenol resins actually used.As for the alkyl phenol resins, Tamanol 100S and Tamanol manufactured by Arakawa Chemical Industry Co., Ltd.
510, Hitanol 1135, Hitanol 2181S, manufactured by Hitachi Chemical Co., Ltd., Super Betsukasite-1001, Super Betsukasite, made by Dainippon Ink and Chemicals Co., Ltd.
2001 etc. are exemplified.

Examples of phenol-modified xylene resins include Nicanol HP-80 and Nicanol manufactured by Mitsubishi Gas Chemical Industries, Ltd.
Examples include HP-100, and examples of the phenol/terpene copolymer resin include YS Polyster T 100 and YS Polyster T 115 manufactured by Yasushi Oil Industries Co., Ltd.

Silicone oils that can be used in the present invention include those that are nonvolatile at 25°C and have a medium or high viscosity of 100 to 1,000,000 cs, preferably 3,000 to 100,000 cs.

The silicone oil referred to herein is a mixture of various compounds in terms of its chemical structure, but those of the following general formula () are usually used.

(R is an alkyl group, and a portion thereof may be substituted with hydrogen, a phenyl group, or an alkyl group or phenyl group having a halogen substituent.n
is an integer from 0 to 13. ) However, the most common silicone oils are medium and high viscosity methyl silicone oils in which all or most of the R's in the general formula () are methyl groups, and the specific mass-produced products are indicated by trade name. and Shin-Etsu Chemical
Examples include Shin-Etsu Silicone KF-96 series, manufactured by Toray Silicone Co., Ltd., and Toray Silicone SH 200 series, manufactured by Toray Silicone Co., Ltd., which have a viscosity of 100 to 1,000,000 cs at 25°C.

Further, as silicone greases made by adding additives to silicone oil, Hibachium Grease manufactured by Down Corning Co., Ltd. and Silicone FS manufactured by Fuji Kobunshi Co., Ltd. can be used as they have the same effect as silicone oil.

Examples of pigments used in the present invention include inorganic pigments such as titanium oxide or carbon black, and organic pigments such as azo, dioxazine, cyanine, and indathrene pigments.

These pigments may be used alone, but if they are blended with the above-mentioned resin in advance, the pigments are quickly dispersed in the ink composition, and production efficiency is improved.

The dye used in this invention needs to be dissolved or dispersed in an aliphatic hydrocarbon and/or alicyclic hydrocarbon solvent, and is one of the oil-soluble dyes normally used in oil-based ink compositions. , those that dissolve or disperse well in the above hydrocarbon solvents are used, specifically CI Solvent Yellow 30,
16, 33, CI Solvent Red 18, 22, same
25, Solvent Violet 14, 49, CI Solvent Blue 7, 11, 35, 36, CI Solvent Black 3, and 7.

Examples of aliphatic hydrocarbon and alicyclic hydrocarbon solvents used in the present invention include single solvents such as normal hexane, normal heptane, normal octane, cyclohexane, methylcyclohexane, ethylcyclohexane, isopropylcyclohexane, and decalin. However, from the viewpoint of volatility and solvent properties of the resin, normal heptane,
Methylcyclohexane, isopropylcyclohexane, or decalin can be preferably used.

Commercially available mixed solvents such as ligroin and volatile oil can also be used. However, it is desirable that the amount of aromatic hydrocarbons in the mixed solvent be as small as possible.

The low viscosity silicone oil with a boiling point of 80 to 160°C used in this invention has a viscosity at 25°C.
Examples include silicone oils having a chemical structure of 1.5 cs or less, and in addition to silicone oils in which n=0 or 1 in the above general formula, silicone oils in general formulas () to () can also be exemplified.

The most universal type of silicone oil is the general formula (), and the product name of the specific mass-produced oil is Silicone KF 96 0..65c.s. manufactured by Shin-Etsu Chemical Co., Ltd. , KF 96L 1c.s. Manufactured by Toray Silicone Co., Ltd., Toray SH200 0.65cs.
Examples include 1c.s.

In addition, silicone oils having the following general formulas () to () can also be used.

H(CH ₃ ) ₂ SiOSi(CH ₃ ) ₃ …() [H(CH ₃ )SiO] ₃ …() [CH ₂ =CH(CH ₃ ) ₂ Si] ₂ O…() (CH ₃ ) ₂ SiO [SiH (CH ₃ ) O] Si (CH ₃ ) ₃ ... () To prepare the ink composition of the present invention, 100 parts by weight of the ink composition (hereinafter, parts by weight are simply referred to as parts).
10 to 25 parts of phenolic resin, preferably
12-20 parts, medium-viscosity and/or high-viscosity silicone oil 0.1-1.0 parts, preferably 0.2-0.7 parts, 2-30 parts when using pigments as colorants, when using oil-soluble dyes as colorants 2 to 12 copies,
50 to 85 parts, preferably 55 to 75 parts of aliphatic hydrocarbon and/or alicyclic hydrocarbon solvent are used.

Phenolic resins are useful for dispersing pigments or dissolving or dispersing oil-soluble dyes, providing suitable viscosity for use in ink compositions, and fixing handwriting to writing surfaces. In particular, the combination with silicone oil and hydrocarbon solvent is effective in fixing handwriting well when written on water-repellent materials.

If the phenolic resin exceeds 25 parts, the viscosity will be too high and will not be suitable for writing, and if it is less than 10%, the viscosity will be too low, resulting in poor writing properties, poor dye solubility, poor color development, and poor adhesiveness.

Medium-viscosity and high-viscosity silicone oils, along with phenolic resins and hydrocarbon solvents, are useful for fixing handwriting on the surface of water-repellent materials; however, if the amount exceeds 1 part, the handwriting remains sticky; If the amount is less than 0.1 part, the handwriting fixing effect will be lost. Pigments and dyes are useful in imparting a moderate amount of color to handwriting, but if the amount
If the amount is less than 30 parts, the color development will be weak and the light fastness will be weak, and if the pigment content exceeds 30 parts or the dye content exceeds 12 parts, the brightness of the color will decrease, and the ink composition may form precipitates or gel during storage. The possibilities become greater.

Aliphatic hydrocarbons and/or alicyclic hydrocarbons are used to adjust the viscosity of the ink composition to a level suitable for writing, but in this invention, they are used in combination with phenolic resins and silicone oils to easily leak water from the surface of water-repellent materials. , is useful for fixing handwriting, but if the amount exceeds 85 parts or less than 50 parts, the viscosity becomes too low or too high, impairing the suitability of handwriting.

Low viscosity silicone oil has a low boiling point of 80 to 160°C, and in order to eliminate the uneven thickness of handwriting that tends to occur when the ink composition of the present invention is written on non-penetrating surfaces such as plastic, ceramics and metal, It is added as a leveling agent, and if the amount exceeds 30 parts, the resin or dye will precipitate.
The leveling effect will become worse if it is less than 100%.

In addition, when writing on a non-penetrating surface, even if a part (40% or less) of the aliphatic hydrocarbon and/or alicyclic hydrocarbon solvent is replaced with an aromatic hydrocarbon solvent, etc., low viscosity silicone oil can be added. Since it does not impair the handwriting fixing effect and increases the solubility of the dye, it is possible to obtain an ink with vivid color development, which is useful for reducing the cost of ink.

Auxiliary resins such as ester resins, rosin-modified xylene resins, terpene resins, or silicone resins do not impair the adhesion of handwriting to water-repellent materials, and improve the adhesion of handwriting to writing surfaces other than water-repellent materials. It is effective in increasing the solubility of dyes, producing beautiful colors, and reducing costs. If this amount exceeds 15 parts, the fixation of handwriting on water-repellent materials will be impaired.

In this invention, an aliphatic hydrocarbon and/or alicyclic hydrocarbon solvent (in some cases including an auxiliary solvent such as an aromatic hydrocarbon solvent), a phenolic resin (in some cases including an auxiliary resin) and a silicone Add oil and stir at 40-60℃ for 60 minutes.
Dissolve the resin completely. Pigments and/or dyes are then added and stirred for 30 to 60 minutes to disperse or dissolve.

Finally, it is filtered to remove impurities.

As described above, the effects of the present invention can be obtained by adding an appropriate amount of a specific medium-viscosity/high-viscosity thin silicone oil and a specific low-viscosity thin silicon oil in combination to an ink composition. It is possible to write or mark on surfaces treated with paraffin wax or silicone resin, such as wax-treated paper or release paper for pressure-sensitive adhesive paper, without being repelled, and it is possible to write or mark on resins such as polyethylene, polypropylene, polyacetal, etc. When a mark is made, the handwriting or mark is not easily erased by friction, and in addition to having the above-mentioned qualities, the present invention has good leveling properties even when written on non-permeable surfaces such as plastic, ceramics, and metal. be.

Next, specific examples will be shown to further clarify the invention.

Example 1 Phenol resins...Alkylphenol resin (manufactured by Hitachi Chemical, trade name: Hytanol 2181S)......12.0 parts by weight Auxiliary resins...Ester gum (manufactured by Tokushima Oil Co., Ltd., trade name: Ester Gum EG-H)
...10.0 parts by weight Medium-high viscosity silicone oil ...Silicone oil (manufactured by Shin-Etsu Chemical Co., Ltd., trade name Shin-Etsu Silicone KF96 10,000 CS.)
0.6 parts by weight Low viscosity silicone oil...Low viscosity silicone oil (manufactured by Shin-Etsu Chemical Co., Ltd., product name Shin-Etsu Silicone KF96 0.65
CS.)...5.0 parts by weight pigment or oil-soluble dye...CI Solvent Blue
55 (manufactured by BASF, trade name Neosapon Blue FLF) ...4.0 parts by weight CI Solvent Yellow 30 (manufactured by Orient Chemical Industries, trade name Oil Yellow 105) ...3.0 parts by weight Solvent ... ethylcyclohexane ...65.4 parts by weight From the above A green ink composition was obtained.

Example 2 Phenol resins... Alkyl phenol resin (manufactured by Arakawa Chemical Industries, trade name: Tamanol 510) 13.0 parts by weight Phenol-terpene copolymer resin (manufactured by Yasushi Oil Industries, trade name)
YS Polyster T115)
...12.0 parts by weight Medium-high viscosity silicone oil ...Silicone grease (manufactured by Dow Corning, trade name: Hibachium Grease)
...0.5 parts by weight Low viscosity silicone oil ...Low viscosity silicone oil (manufactured by Toray Silicone, trade name: Tore Silicone SH200)
1.0cs.)...8.0 parts by weight Pigment or oil-soluble dye...CI Solvent Black 3 (manufactured by Chuo Gosei Chemical Co., Ltd., trade name Oil Black HBB)
...8.0 parts by weight Solvent ... Isopropylcyclohexane
...38.5 parts by weight methyl isobutyl ketone
...20.0 parts by weight A black ink composition was obtained from the above.

Claims (1)

[Scope of Claims] 1 a At least one resin selected from the group consisting of alkylphenol resins, phenol-modified xylene resins, and phenol-terpene resins that are soluble in aliphatic hydrocarbon and/or alicyclic hydrocarbon solvents. 10-25% by weight of the species in the total composition b. Soluble in aliphatic hydrocarbon and/or alicyclic hydrocarbon solvents, non-volatile at 25°C, and medium viscosity of 100-1000000 cs. and/or High viscosity silicone oil is 0.1 to 1.0 in the entire composition
Weight % c Pigment and/or oil-soluble dye d Aliphatic hydrocarbon and/or alicyclic hydrocarbon solvent e Boiling point is 80 to 160°C and viscosity at 25°C is 1.5cs.
5 to 30 of the following low viscosity silicone oil compositions
An ink composition consisting of % by weight.