JP7028555B2 - Aqueous ink composition for writing tools and writing tools using it - Google Patents

Description

The present invention relates to a water-based ink composition for writing tools. More specifically, the present invention relates to a water-based ink composition for writing tools, which is excellent in ink storage stability and color development. The present invention also relates to a writing instrument using the composition.

Conventionally, a water-based ink composition for writing instruments using a white pigment such as titanium oxide has been known in order to obtain a handwriting having a concealing property. Furthermore, it has become known that by using a complementary color pigment or the like in combination with such a highly concealing ink composition, pastel-like or chromatic handwriting can be obtained while concealing the base, and such a composition. Is being actively considered.

However, when a pigment having a large specific gravity such as titanium oxide is used, if the pigment precipitates over time to form a so-called hard cake, redispersion may become difficult. Therefore, attempts have been made to prevent the pigment from settling by modifying various materials used in the composition or by using a dispersant in combination. However, although the conventionally reported technology can slow down the sedimentation rate, it is inevitable that the cake will become a hard cake over a long period of time, and the actual situation is that these measures have not led to sufficient results. Is. Further, measures such as increasing the ink viscosity and developing structural viscosity by using so-called gelling agents and thickeners are being studied. However, when the ink composition taking these countermeasures is used for a writing instrument using a pen tip such as a fiber bundle or a porous body, the ink ejection amount may be reduced. As described above, there is room for improvement in the conventional techniques for the storage stability of ink compositions containing pigments having a large specific density over time, and further improvement methods are being studied (Patent Documents 1 to 3).

Patent Document 1 describes a writing ink using specific titanium oxide, resin particles, and a binder. Hollow resin particles and polyethylene are described as the resin particles. This ink has improved redispersibility.

Patent Document 2 describes a writing ink using titanium oxide, aluminum silicate, and a specific resin. It is described that this ink has improved the stability of the dispersion system over time, and the color tone of the handwriting is clear.

Patent Document 3 describes a pigment ink for writing instruments containing titanium oxide, aluminosilicate, a water-soluble resin, an inorganic salt soluble in water, a surfactant, and water. It is stated that this ink also has little color separation over time and does not make a hard cake.

As described above, the conventional technique has succeeded in improving the redispersibility to some extent. However, when carrying, when external pressure such as vibration is applied to the ink, pigment particles with a large specific density such as titanium oxide adhere to each other and it is easy to pack them most densely, making a hard cake. Since it is easy, there is room for improving the stability of the ink.

Japanese Unexamined Patent Publication No. 11-343443 Japanese Unexamined Patent Publication No. 59-21776 Japanese Unexamined Patent Publication No. 11-14039

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to create a dispersed state in which various components such as pigments are easily redispersed over time or when the ink is subjected to external pressure such as vibration and settles without making a hard cake. It is an object of the present invention to provide an ink composition for a writing instrument having excellent writing performance, which has improved color development and good handwriting blurring.

The water-based ink composition for writing instruments according to the present invention is characterized by containing pigment particles, an extender material, an alkyrrole ammonium salt of a basic acid, polyvinyl alcohol, and a solvent.

Further, the writing tool according to the present invention is characterized in that it contains the above composition.

INDUSTRIAL APPLICABILITY According to the present invention, there is provided an ink composition for a writing instrument having excellent writing properties, which has improved redispersibility, color development, and handwriting fixing property while maintaining writing performance equal to or higher than that of a conventional writing instrument. Will be done.

Hereinafter, embodiments of the present invention will be described in detail. In addition, in this specification, "part", "%", "ratio", etc. indicating a composition are based on mass unless otherwise specified.

The water-based ink composition for writing tools according to the present invention (hereinafter, may be referred to as "water-based ink composition" or "composition" in some cases) is a pigment particle, an extender material, and an alcoholol ammonium salt of a basic acid. An ink composition containing polyvinyl alcohol, a cellulose derivative, an acrylic resin, and a solvent . The constitutional material is kaolin, and the polyvinyl alcohol has a degree of saponification of 80 to 95 mol% and is polymerized. The degree is 500 to 4000, the cellulose derivative is carboxymethyl cellulose, the acrylic resin contains a self-crosslinking acrylic styrene copolymer resin, and the content of the constitutional material is based on the total mass of the ink composition. The content of the polyvinyl alcohol is 0.3 to 1.5% by mass, the content of the cellulose derivative is 0.02 to 0.2% by mass, and the content of the acrylic resin is 5 to 15% by mass. The content is 1 to 6% by mass . Hereinafter, each component constituting the water-based ink composition according to the present invention will be described.

(Pigment particles)
In the present invention, the pigment particles can be selected from any conventionally known pigment particles. Examples of the pigment include inorganic pigments such as metal oxides or metal salts, and organic pigments such as organic pigments or lake pigments. Inorganic pigments are preferably used in the present invention. Of these, inorganic pigment particles are preferable, and metal oxide particles are particularly preferable. In particular, since titanium oxide is white, it is preferable because various colors can be realized by combining it with a complementary color pigment or the like described later. Further, as the pigment, a glossy bright pigment such as an aluminum pigment, a pearl pigment, or the like can also be used.

The pigment particles are preferably titanium oxide surface-treated with an inorganic oxide such as alumina, silica, zirconia, or zinc oxide, a metal such as molybdenum, or a coating material such as phosphate, and in particular, at least alumina. Titanium oxide surface-treated with the contained inorganic oxide is preferable. When such pigment particles are used, the redispersibility of the composition is improved, and a hard cake is less likely to be formed even when the composition is left for a long time or when the ink is subjected to external pressure such as vibration.

The amount of the pigment particles covered with alumina or the like, that is, the ratio of the mass of the coating material such as alumina to 100 parts by mass of titanium oxide is preferably 0.01% by mass to 20% by mass, preferably 0.1. It is more preferably% by mass to 8.0% by mass. When the coating amount is within the above numerical range, it is possible to sufficiently prevent the water-based ink composition from forming a hard cake.

The average particle size of the pigment particles is preferably 0.01 μm to 30 μm, more preferably 0.05 μm to 20 μm, and even more preferably 0.1 μm to 10 μm. When the average particle size of the pigment particles is within the above numerical range, the redispersibility can be sufficiently maintained even when the pigment particles settle in the aqueous ink composition. Further, when an aqueous ink composition containing pigment particles having an average particle diameter within the above numerical range is used for a writing instrument such as a marker, the ink ejection property can be improved. As an example, the average particle size of the pigment particles is 50, which is the cumulative volume of the particle size distribution measured by the laser diffraction method using a laser diffraction type particle size distribution measuring machine (trade name "Microtrac HRA9320-X100", Nikkiso Co., Ltd.). It can be measured by the particle size (D50) at%. In the present specification, the "average particle size" of the pigment particles refers to the average particle size on a volume basis unless otherwise specified.

The content of the pigment particles in the water-based ink composition is preferably 1% by mass to 40% by mass, more preferably 2% by mass to 30% by mass, based on the total mass of the water-based ink composition. When the content of the pigment particles is within the above numerical range, it is possible to prevent the ink ejection property from being lowered, and it is possible to maintain the water-based ink composition and the concealing property of the handwriting formed by using the water-based ink composition. ..

(Constitution material)
The water-based ink composition according to the present invention contains an extender material. The constitutional material is a material used to improve the strength and colorability of the handwriting formed from the composition. In the present invention, the constitutional material can be selected from any conventionally known materials, and specific examples thereof include kaolin, talc, mica, clay, bentonite, calcium carbonate, aluminum hydroxide, and sericite. .. Further, whiskers such as calcium carbonate and potassium titanate can also be used. Of these, kaolin is particularly preferred. This is because when paper is used as the writing surface, the use of kaolin can prevent the pigment particles from entering between the fibers of the paper, and is highly effective in enhancing the color development of the handwriting.

The content of the constitutional material in the water-based ink composition is preferably 1% by mass to 20% by mass, more preferably 5% by mass to 15% by mass, based on the total mass of the water-based ink composition. When the content of the constitutional material is within the above numerical range, it is possible to prevent the ink viscosity from becoming too high, making a hard cake, and preventing the ink ejection property from being lowered during writing. Further, it is possible to maintain the concealing property of the water-based ink composition and the handwriting formed by using the water-based ink composition.

(Alchirol ammonium salt of basic acid)
The aqueous ink composition according to the present invention comprises an alkylolammonium salt of a basic acid. Here, the alkyrrole ammonium salt of the basic acid is adsorbed on the particle surface of the pigment, and while separating the particles from each other, the distance between the particles can be maintained at a certain level or more, and the particles can be prevented from directly agglomerating with each other. , Coagulation and dispersion effect can be obtained. As a result, agglomeration of particles is suppressed, and even when agglomerates are formed, agglomerates having a relatively low density are formed. In particular, it is preferable to use a water-soluble alkyrrole ammonium salt of the basic acid.

Regarding the alkylolammonium salt of the basic acid, the basic acid preferably has a plurality of acid groups, and specifically, an acidic polymer having a plurality of acid groups such as polyacrylic acid and polymethacrylic acid. Examples thereof include polyvinyl sulfonic acid and polyphosphoric acid, which are preferably used. In addition to this, a polymer obtained by polymerizing an unsaturated fatty acid such as crotonic acid is also an example of a basic acid. The alkyrrole ammonium salt of the basic acid can be obtained by reacting these basic acids with alkylol ammonium. The salt obtained by such a reaction contains the following partial structure.
-C (= O) -N (-R ¹ ) (-R ² -OH)
Here, R ¹ is an alkyl group and R ² is an alkylene group. The alkyrrole ammonium salt of the basic acid used in the present invention is preferably a polymer having such a partial structure. Such a polymer may have a plurality of the above structures, and its molecular weight is not particularly limited, but the mass average molecular weight is preferably 1,000 to 100,000, and 5,000 to 20,000. Is more preferable.

Further, depending on the pigment used, an acidic group such as a carboxyl group may exert the same function. That is, polymers containing an acidic group can also be used as the alkylolammonium salt of the basic acid.

In the present invention, the alkylolammonium salt of the basic acid is bonded to the surface of the pigment particles by the group as described above, and is hydrogen-bonded to the alkylolammonium salt molecule of another basic acid to form the main chain structure of the polymer. It is considered that the pigment particles enter between the pigment particles and separate the pigment particles from each other.

Alkyrol ammonium salts of such basic acids are generally commercially available, for example, ANTI-TERRA 203, ANTI-TERRA 204, ANTI-TERRA 206, ANTI-TERRA 250, ANTI-TERRA U, DISPERBYK-180 (all). Product names, manufactured by Big Chemie Co., Ltd.), TEGO Dispers 630, TEGO Dispers 700 (all product names, manufactured by Evonik Degussa Japan Co., Ltd.) and the like can be mentioned.

(Polyvinyl alcohol)
The water-based ink composition according to the present invention comprises polyvinyl alcohol. Polyvinyl alcohol binds to relatively low-density aggregates formed by the above-mentioned alkylolammonium salt of the basic acid, and further makes pigment particles, extender materials, and polyolefin resin particles, which will be described later, aqueous. It can be dispersed in an ink composition to form bulky aggregates. This polyvinyl alcohol prevents the water-based ink composition from forming a hard cake and forms bulky aggregates, so that the redispersibility can be improved. In addition, polyvinyl alcohol also has the effect of increasing the adhesive force of the handwriting to the writing surface and improving the fixing property of the handwriting.

The polyvinyl alcohol used in the present invention is represented by the general formula,-[CH ₂ -CH (OH)] _m- [CH ₂ -CH (OCOCH ₃ )] _n- , and is a good reproduction of the ink composition. Considering the dispersibility, the saponification degree {[m / (m + n)] × 100} is preferably 50 mol% to 99 mol%, and more considering the redispersibility, 70 mol% to 99 mol%, in particular. Is more preferably 80 mol% to 95 mol%.
Further, the degree of polymerization (m + n) of the saponified polyvinyl alcohol is 300 to 5000 because it can prevent the viscosity of the ink composition from becoming too high while exhibiting good redispersibility. Is preferable, and 500 to 4000 is more preferable.

Polyvinyl alcohols that can be used in the present invention include Gosenol series N type, A type, G type, K type (manufactured by Nippon Synthetic Chemical Industry Co., Ltd.) and J Poval J series (manufactured by Japan Vam & Poval Co., Ltd.). ), KURARAY Poval PVA series (manufactured by Kuraray Co., Ltd.), etc., and one type or two or more types can be used.

Further, as the polyvinyl alcohol of the present invention, it is also possible to use a modified polyvinyl alcohol, preferably a modified polyvinyl alcohol having the above-mentioned degree of saponification and degree of polymerization. The modified polyvinyl alcohol is one in which the hydroxyl group or acetoxy group of polyvinyl alcohol is replaced with a modified group, or one having the above-mentioned modified group in the side chain of polyvinyl alcohol. Specifically, as a modifying group, an anionic group such as a carboxyl group or a sulfonic acid group, a cationic group such as an ammonium salt, or an ethylene oxide group, a ketone group or an aldehyde group is used to replace a hydroxyl group or an acetoxy group. Or, those having the above-mentioned modifying group in the side chain can be mentioned. It is also possible to use a polyvinyl alcohol / acrylic acid / methyl methacrylate copolymer obtained by copolymerizing polyvinyl alcohol, acrylic acid, and methyl methacrylate.
Considering the good redispersibility of the ink composition, the modified polyvinyl alcohol is preferably obtained by modifying polyvinyl alcohol with an anionic group, and more preferably modified with a carboxyl group. Specific examples thereof include Nippon Synthetic Chemical Industry Co., Ltd., Gosenex T series, Japan Vam & Poval Co., Ltd., Modified Poval A series, Kuraray Co., Ltd., Kuraray K Polymer KL series, and the like, which are suitable. It can be used.

In the aqueous ink composition of the present invention, either the above-mentioned polyvinyl alcohol or modified polyvinyl alcohol can be preferably used, but in consideration of good redispersibility, the polyvinyl alcohol is a modified polyvinyl alcohol. The modified polyvinyl alcohol is more preferably modified with an anionic group, and further preferably modified with a carboxyl group.

The content of polyvinyl alcohol in the water-based ink composition is preferably 0.1% by mass to 5% by mass, preferably 0.2% by mass to 3% by mass, based on the total mass of the water-based ink composition. Is more preferable, and is particularly preferably 0.3% by mass to 1.5% by mass. When the content of polyvinyl alcohol is within the above numerical range, it is possible to prevent the ink viscosity from becoming too high, making a hard cake, and preventing the ink ejection property from being lowered during writing.

When the total content of the pigment particles and the extender material with respect to the total amount of the ink composition is A and the total content of the polyvinyl alcohol with respect to the total amount of the ink composition is B, 0.001 ≦ B / A ≦ 1.0. It is preferably in the range, preferably in the relationship of 0.005 ≦ B / A ≦ 0.8, and more preferably 0.01 ≦ B / A ≦ 0.7. This is because if it is within the above numerical range, it is easier to suppress hard cake formation and to have excellent writeability.

(solvent)
Examples of the solvent include water and a mixed solvent of water and an organic solvent. As the water, conventional water such as ion-exchanged water, distilled water and tap water can be used. When a mixed solvent of water and an organic solvent is used, ethanol, propanol, isopropyl alcohol, mineral spirit and the like can be used as the organic solvent. Although diols or triols having a relatively high boiling point such as glycerin, ethylene glycol, diethylene glycol, triethylene glycol, propylene glycol, and polyethylene glycol can be used, the blending amount thereof is preferably small. The content of the organic solvent is preferably 1% by mass to 30% by mass, more preferably 1% by mass to 20% by mass, based on the total mass of the solvent. In particular, the content of diols or triols is preferably 1% by mass to 10% by mass. When the content of the organic solvent is within the above numerical range with respect to the total mass of the solvent, good dry-up performance and handwriting drying property can be achieved at the same time.

The content of the solvent in the water-based ink composition is preferably 20% by mass to 90% by mass, more preferably 30% by mass to 80% by mass, based on the total mass of the composition. When the content of the solvent is within the above numerical range, each component can be stably dissolved or dispersed, and a bulky aggregate can be easily redispersible in the aqueous ink composition.

(Fixing agent)
The water-based ink composition of the present invention is further fixed in order to improve the fixability of the handwriting to the writing surface, particularly to the non-permeable plastic, glass, metal, enamel and the like. It is preferable to include an agent. The fixing agent can be arbitrarily selected from those having a non-permeable effect of improving the fixing property on the writing surface, and specifically, an acrylic resin, a urethane resin, and a styrene-butadiene type. Resin, alkyd resin, ketone resin, sulfoamide resin, maleic acid resin, polyvinyl acetate resin, ethylene vinegar resin, vinyl chloride-vinegar vinyl resin, copolymer of styrene and maleic acid ester, styrene-acrylonitrile resin, cyanate-modified poly Styrene glycol, ester gum, xylene resin, urea resin, ureaaldehyde resin, phenol resin, alkylphenol resin, terpenephenol resin, rosin-based resin and hydrogenated compounds thereof, rosinphenol resin, polyvinyl butyral, polyvinyl acetal, polyvinyl alkyl ether, polyvinyl Examples thereof include pyrrolidone, cyclohexanone resin, polyethylene oxide and the like, and acrylic resin is preferably used.

The acrylic resin used in the present invention is a polymer containing acrylic acid or methacrylic acid as a repeating unit, and when the acrylic resin is contained in the water-based ink composition, the fixing property of the writing on the writing surface is improved. The scratch resistance of the writing line formed by using the resin can be further improved, and for unknown reasons, the dispersion stability and the hard cake suppressing effect can be further improved.

Examples of the acrylic resin that can be used in the present invention include a water-soluble acrylic resin and a poorly water-soluble acrylic resin, and one or more of them can be used. Considering the effect of suppressing hard cake formation, the water-based ink composition of the present invention preferably contains a poorly water-soluble acrylic resin. As the poorly water-soluble acrylic resin, acrylic acid ester resin, acrylic styrene resin, acrylic silicon resin, acrylic urethane resin, acrylic nitrile resin, acrylic styrene nitrile resin, acrylic vinegar resin, methacrylic acid ester resin and the like can be used. These poorly water-soluble acrylic resins are poorly soluble in water by themselves and are usually used as emulsions. Among these acrylic resins, an acrylic resin emulsion is preferable, and a self-crosslinking acrylic styrene copolymer resin emulsion is more preferable, in consideration of further improving the fixing property and abrasion resistance of the writing line.

The molecular weight of the acrylic resin is not particularly limited, but a mass average molecular weight of 1,000 to 1,000,000 is generally used.

Specific examples of the acrylic resin that can be used in the present invention include Joncryl series (manufactured by BASF Corporation), Primal AC series (manufactured by Rohm and Hearth Japan Co., Ltd.), JSRAE series (manufactured by JSR Corporation), and so on. Examples include the MOVIN series (manufactured by Nippon Synthetic Chemical Industry Co., Ltd.) Nikazol series (manufactured by Nippon Carbide Industry Co., Ltd.) and the Ultrasol series (manufactured by Aika Kogyo Co., Ltd.).

The content of the acrylic resin in the water-based ink composition is preferably 0.5% by mass to 10% by mass, more preferably 1% by mass to 6% by mass, based on the total mass of the water-based ink composition. preferable.

(Coagulation stabilizer)
The water-based ink composition of the present invention preferably further contains a coagulation stabilizer in order to further enhance the dispersion stability of the ink composition. In the present invention, the aggregation stabilizer suppresses aggregation and sedimentation of the composition by binding to polyvinyl alcohol in the ink composition and further stabilizing the structure of the bulky aggregate formed by the polyvinyl alcohol. It is a thing. The aggregation stabilizer can be arbitrarily selected from those that bind to the polyvinyl alcohol in the ink composition, and specifically, carboxymethyl cellulose, methyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, hydroxypropylmethyl cellulose, and the like. Cellulose derivatives such as hydroxypropylethyl cellulose and their salts, polyvinylpyrrolidone, polyethylene glycol, dextrin, sodium polyacrylate, polyacrylamide, polyacrylamide derivatives, polymers of dimethylaminoethyl methacrylate and methyl chloride, nylon, acrylamide-2 (acrylloyl). Oxy) Ethyltrimethylammonium chloride copolymer, acrylamide, acrylic nitrile, N (2) -vinyl acrylic amidine-hydrogen chloride (1/1), N-vinylacrylamide, vinylamine-hydrogen chloride (1/1), N-vinyl A formamide copolymer or the like is preferably used, and one kind or two or more kinds can be used. Among these, cellulose derivatives are preferable, and carboxymethyl cellulose is more preferable, considering that the use in combination with polyvinyl alcohol further enhances the dispersion stability of the ink composition.

When the aggregation stabilizer is used in the ink composition of the present invention, the content of the aggregation stabilizer in the aqueous ink composition is 0.01% by mass to 1.0% by mass based on the total mass of the aqueous ink composition. It is preferably 0.05% by mass to 0.8% by mass, more preferably 0.1% by mass to 0.5% by mass, and most preferably 0.1% by mass. When the content of the coagulation stabilizer is within the above numerical range, excellent writing property and good ink ejection property can be maintained, and the effect of suppressing hard cake can be enhanced.

(Polyolefin resin particles)
The composition according to the present invention may contain a polyolefin resin, if necessary. Examples of the material of the polyolefin resin particles include polyolefins such as polyethylene and polypropylene, and mixtures thereof. Further, the polyolefin may be a linear polyolefin, a polyolefin having a branched chain, a modified polyolefin into which a functional group has been introduced, or the like. For example, when polyethylene is used as the polyolefin, low-density polyethylene, linear low-molecular-weight polyethylene, high-density polyethylene, modified polyethylene, modified high-density polyethylene and the like can be used. The molecular weight of these polyolefins is not particularly limited, but for example, polyolefins having a mass average molecular weight of 500 to 100,000 are preferable, and polyolefins having a mass average molecular weight of 800 to 5,000 are more preferable. When the mass average molecular weight of the polyolefin resin particles is within the above numerical range, the water-based ink composition has higher slipperiness with respect to the writing line formed when writing is performed using a writing instrument such as a marker. Along with this, high scratch resistance can be imparted, and good handwriting can be obtained. The polyolefin resin particles may contain a material other than the polyolefin, if necessary.

The shape of the polyolefin resin particles is not particularly limited, and can take any shape such as an amorphous shape, a spherical shape, a needle shape, a plate shape, and a square shape.

The average particle size of the polyolefin resin particles is preferably 0.1 μm to 35 μm. When the average particle size of the polyolefin resin particles is within the above numerical range, the water-based ink composition has higher slipperiness with respect to the writing line formed when writing is performed using a writing instrument such as a marker. Along with this, high scratch resistance can be imparted, and good handwriting can be obtained. Further, from the viewpoint of imparting high scratch resistance, it is more preferably 0.1 μm to 25 μm, further preferably 0.5 μm to 20 μm, and particularly preferably 0.5 μm to 15 μm. The average particle size of the polyolefin resin particles can be measured by the Coulter counter method.

Specific examples of the polyolefin resin particles that can be used in the present invention include Chemipearl W series, Chemipearl M series (all trade names are manufactured by Mitsui Chemicals, Inc.), CERAFLOUR series, AQUACER series, and AQUAMAT series (all are commercial products). Name, manufactured by Big Chemie Co., Ltd.).

The content of the polyolefin resin particles in the water-based ink composition is preferably 0.01% by mass to 10% by mass, preferably 0.2% by mass to 5% by mass, based on the total mass of the water-based ink composition. It is more preferable, and it is most preferably 0.5% by mass to 5% by mass. When the content of the polyolefin resin particles is within the above numerical range, the ink ejection property can be maintained and the writing line can be imparted with higher slipperiness.

(Complementary color pigment)
The water-based ink composition according to the present invention may contain a complementary color pigment in order to adjust the color of the obtained writing line. In particular, when white titanium oxide is selected as the main pigment particles, various colors can be realized by combining with the complementary color pigment. The complementary color pigment is not particularly limited, and pigments of various colors such as red, blue, yellow, green, white, and black can be used. Examples of complementary color pigments include SP series (manufactured by Fuji Dye Co., Ltd.), SANDYESUPERCOLOR series (manufactured by Sanyo Dye Co., Ltd.), EMACOL series (manufactured by Sanyo Dye Co., Ltd.), and Lumicol series (manufactured by Nippon Fluorescent Chemical Co., Ltd.) (Manufactured by Orient Chemical Industry Co., Ltd.), WA series (manufactured by Dainichi Seika Kogyo Co., Ltd.) and the like.

The content of the complementary color pigment in the water-based ink composition is preferably 0.01% by mass to 15% by mass, preferably 0.1% by mass to 10% by mass, based on the total mass of the water-based ink composition. Is more preferable.

(Surfactant)
The water-based ink composition preferably contains a surfactant. It is preferable to select and use one or more of the surfactants from a surfactant having an acetylene bond in the structure, a fluorine-based surfactant, a silicon-based surfactant, and a succinic acid-based surfactant. .. By incorporating the above-mentioned surfactant into the water-based ink composition, the surface tension is lowered to improve the wettability of the water-based ink composition with respect to a non-permeable recording medium such as a film, and the non-permeable recording medium. It is possible to improve the writability by making the handwriting blurring and hollowing out of the handwriting good.

Among the above-mentioned surfactants, the surfactant having an acetylene bond has extremely high stability and can continuously exert the effect of improving the wettability, such as handwriting blurring and hollowing out on the impermeable recording medium. Is preferable because it improves the writability. Examples of the surfactant having an acetylene bond include an acetylene alcohol-based surfactant and an acetylene glycol-based surfactant. In particular, an acetylene glycol-based surfactant is preferable because it is excellent in volatility of the writing line after writing, that is, drying property, and can impart abrasion resistance in a short time.

(others)
In addition, the water-based ink composition may contain preservatives, wetting agents, defoaming agents, rust preventives, pH adjusters, bubble suppressants, bubble absorbers, shear thinning agents, viscosity regulators, etc., as necessary. It may be included.

(Aqueous ink composition for writing tools)
The viscosity of the aqueous ink composition according to the present invention is preferably low. The viscosity of the composition can be measured using an E-type rotational viscometer (manufactured by Brookfield). Specifically, the viscosity of the water-based ink composition at 20 ° C. is preferably 1 mPa · s to 40 mPa · s when measured under the condition of a rotation speed of 100 rpm (shear rate 380 sec ^-1 ), and is preferably 5 mPa · s. It is more preferably about 20 mPa · s. Further, when measured under the condition that the rotation speed is 10 rpm (shear rate 38 sec ^-1 ), it is preferably 1 mPa · s to 60 mPa · s, and more preferably 10 mPa · s to 40 mPa · s. When the viscosity of the water-based ink composition is within the above numerical range, the ink ejection property when used for a writing instrument such as a marker can be improved, and the writing property on a non-permeable recording medium such as a film is improved. do.

The viscosity index n of the aqueous ink composition according to the present invention at 20 ° C. is preferably 0.4 to 1.0, more preferably 0.5 to 1.0. Here, the viscosity index n refers to n in the viscosity formula represented by S = αD ⁿ . In addition, S indicates a shear stress (dyn / cm ² = 0.1 Pa), D indicates a shear rate (s ^-1 ), and α indicates a viscosity coefficient. The viscosity index n can be calculated by measuring the ink viscosity using an E-type rotational viscometer (DV-II + Pro, cone-type rotor CPE-42, manufactured by Brookfield). When the viscosity index n of the water-based ink composition is within the above numerical range, the ink ejection property when used for a writing instrument such as a marker can be improved, and in particular, the writing property on a non-permeable recording medium such as a film can be improved. Can be improved.

The pH of the water-based ink composition is preferably 6 to 10, and more preferably 7 to 9. When the pH of the water-based ink composition is within the above numerical range, the ink is not discolored or the ink viscosity is not increased, and the ink can be used without any influence. In the present invention, the pH value can be measured at 20 ° C. by, for example, an IM-40S type pH meter (manufactured by DKK-TOA CORPORATION).

The reason why the water-based ink composition according to the present invention exhibits excellent redispersibility has not been clarified in detail, but it is presumed to be due to the following mechanism.

When only the pigment particles and the extender are dispersed in the solvent as the water-based ink composition, these components easily settle to form a hard cake. Therefore, in general, an auxiliary agent for dispersing each component is added. For example, the alkylolammonium salt of the basic acid used in the present invention is known as a dispersion aid for pigment compositions. When the alkyrrole ammonium salt of the basic acid is added to the pigment particles and the constitutional material, the alkyrrole ammonium salt of the basic acid alone cannot sufficiently disperse the pigment particles and the constitutional material, and the relative specific gravity is relatively high. Large pigment particles settle to the bottom, and the constitutional material is deposited on the bottom, forming a hard cake. This is because the alkylolammonium salt of the basic acid is adsorbed on the pigment particles to form an aggregate having a relatively low density, but the difference in the specific gravity between the aggregate and the constitutional material and the difference in the particle size are large. It is thought that it is for separation.

The water-based ink composition in the present invention solves such a problem by further combining polyvinyl alcohol.

In the case of the water-based ink composition according to the present invention, the alkylolammonium salt of the basic acid is adsorbed on the pigment particles to form an aggregate having a relatively low density, and the aggregate and polyvinyl alcohol are combined to form a network. By forming a structure and confining the constitutional material in the gap, it is dispersed in the network formed by polyvinyl alcohol. As a result, the water-based ink composition according to the present invention is less likely to be separated by being left to stand or to be formed into a hard cake, and polyvinyl alcohol is formed even when pigment particles or constitutional materials are settled due to vibration with respect to the ink. It is considered that the formation of the hard cake is suppressed and the redispersion is easily performed because the pigment particles and the extender are in close contact with each other and the dense packing is suppressed due to the network structure.

Further, by using the acrylic resin, the acrylic resin intervenes between the agglomerate and polyvinyl alcohol, and by binding with the agglomerate and polyvinyl alcohol, the network structure is strengthened, so that the water-based ink composition can be separated. And the effect of suppressing hard cake formation can be further enhanced. Further, the acrylic resin adheres around the aggregate in the ink composition, but when the complementary color pigment is used, the complementary color pigment adheres to the acrylic resin adhered around the aggregate. As a result, the complementary color pigment is less likely to be separated in the ink composition, so that the color development of the handwriting can be improved.

Further, when the aggregation stabilizer is further used, the aggregation stabilizer binds to polyvinyl alcohol to form a new network structure, thereby stabilizing the structure of the bulky aggregate and improving the dispersion stability and the hard cake suppressing effect. It will increase.

Further, the water-based ink composition according to the present invention contains polyolefin resin particles, so that the abrasion resistance is significantly improved. The reason for this is presumed to be as follows. The handwriting formed by using the water-based ink composition according to the present invention is formed by arranging the above-mentioned relatively low-density aggregates and polyolefin resin particles on the surface to be written. Here, since the polyolefin resin particles are larger than the aggregates, when the surface of the handwriting is scratched, the upper part of the polyolefin resin particles is first scratched. At this time, since the polyolefin resin particles have low frictional resistance, they are not affected by the peeling of handwriting. Then, as the scraping progresses, the polyolefin resin particles are deformed by the force applied or frictional heat to cover the surface of the handwriting. As a result, it is presumed that the surface of the handwriting is covered with the polyolefin resin, and the polyolefin resin lowers the coefficient of friction of the surface of the handwriting and protects the handwriting.

The water-based ink composition according to the present invention can be produced by any conventionally known method. Specifically, each of the above components can be blended in a required amount and mixed with various stirrers such as a propeller stirrer, a homodisper, or a homomixer, or various dispersers such as a bead mill, and the like can be produced.

(Stationery)
The water-based ink composition of the present invention is used for writing tools such as marking pens and ballpoint pens using a pen nib such as a fiber tip, felt tip, plastic tip or a ballpoint pen tip, and a fountain pen using a metal pen tip. Can be done. Among them, in order to improve the writability of a non-permeable recording medium such as a film, it is preferable that the pen core is a fiber tip or a felt tip. In particular, it is preferable to use it for a marking pen. The porosity of the pen core is preferably 50% to 80%. When the porosity of the pen core is within the above numerical range, the pigment is not clogged and an appropriate ink ejection amount can be maintained.

The writing tool of the present invention may be configured to be directly filled with the water-based ink composition, or may be provided with an ink container or an ink storage body capable of filling the water-based ink composition. Further, in order to redistribute the pigment particles and the extender material, it is preferable to incorporate a stirrer such as a stirrer ball for stirring the ink in the ink container. Further, the shape of the stirring body may be a spherical body, a rod-shaped body, or the like. The material of the agitator is not particularly limited, and specific examples thereof include metal, ceramic, resin, and glass. Among these, the agitating force for redispersing the pigment particles and the constitutional material can be mentioned. In consideration of, it is preferable to use a metal material, and in consideration of cost, it is preferable to use a glass material. The agitator may be made of a plurality of materials or a plurality of types of materials.

The haunting mechanism of the writing instrument of the present invention is not particularly limited, and examples thereof include a cap type having a cap covering the pen tip, a knock type, a rotary type, and a slide type. Further, it may be a haunting type that can accommodate the pen tip in the barrel.

Further, the ink supply mechanism in the writing tool is not particularly limited, and for example, (1) a mechanism provided with an ink guide core made of a fiber bundle or the like as an ink flow rate adjusting member and supplying a water-based ink composition to a pen tip. (2) A mechanism for supplying a water-based ink composition to the pen tip by interposing a comb-groove-shaped ink flow rate adjusting member, and (3) an ink flow rate adjusting member by a valve mechanism, and pen for the water-based ink composition. Examples thereof include a mechanism for supplying water first, and (4) a mechanism for directly supplying the water-based ink composition to the pen tip from an ink container or a shaft cylinder provided with a pen tip.

In one embodiment, the writing instrument is a marking pen, and the pen tip is not particularly limited, and may be, for example, a fiber tip, a felt tip, a plastic tip, or the like, and the shape thereof may be bullet-shaped, chisel-shaped, or the like. It may be a brush pen type or the like.

In one embodiment, the writing instrument is a ballpoint pen, preferably a ballpoint pen provided with an ink backflow preventive body.

The present invention will be described below with reference to various examples.
(Example 1)
An ink composition for writing utensils was obtained by stirring and mixing the following raw materials and blending amounts at room temperature for 1 hour. The viscosity of the obtained aqueous ink composition was measured with an E-type rotary viscometer (DV-II + Pro, cone-type rotor CPE-42, manufactured by Brookfield), and the viscosity index was calculated based on the viscosity. Specifically, the viscosity at 20 ° C. and a shear rate of 380 sec ^-1 (rotation speed 100 rpm) was 10.1 mPa · s, and the viscosity at a shear rate of 38 sec ^-1 (rotation speed 10 rpm) was 20.5 mPa · s. .. From these viscosities, the viscosity index was calculated to be 0.69. Further, as a result of measuring the pH of the aqueous ink composition at 20 ° C. using an IM-40S type pH meter (manufactured by DKK-TOA CORPORATION), the pH was 7.9.
・ Pigment particles 25% by mass
(Titanium oxide particles whose surface is treated with alumina, average particle diameter: 0.23 μm, manufactured by Sakai Chemical Industry Co., Ltd., trade name: TITONE R-32)
・ Constitution material 7% by mass
(Kaolin, average particle diameter 0.8 μm, manufactured by BASF Corporation, trade name: Satintone 5HB)
-Alkyrol ammonium salt of basic acid 1.45% by mass
(Alkyrol ammonium salt of high molecular weight acidic polymer, manufactured by Big Chemie Co., Ltd., trade name: ANTI-TERRA 250)
・ Polyvinyl alcohol 10% by mass
(10% aqueous solution, saponification degree 86.5 mol% -89.0 mol%, polymerization degree 1700, manufactured by Nippon Synthetic Chemical Industry Co., Ltd., trade name: Gosenol GM-14)
・ Acrylic resin 7% by mass
(Solid content 42%, manufactured by BASF Corporation, trade name: Joncryl 711)
・ Complementary color pigment 2% by mass
(Blue pigment, manufactured by Sanyo Pigment Co., Ltd., trade name: SANDYESUPERCOLOR BLUE GLL-E)
・ Wetting agent 0.4% by mass
(Acetylene glycol, manufactured by Nissin Chemical Industry Co., Ltd., trade name: Dynol 604)
・ Antifoaming agent 0.3% by mass
(Made by Big Chemie Co., Ltd., product name BYK-024)
・ Preservative 0.2% by mass
(Made by Lonza Japan Co., Ltd., Product name: Proxel XL-2)
・ Ion-exchanged water 44.65% by mass

(Examples 2 to 25, Comparative Examples 1 to 3)
The ink compositions of Examples 2 to 25 and Comparative Examples 1 to 3 were obtained by changing the types and amounts of the components to be blended with respect to Example 1 as shown in Tables 1 to 3. However, since the ink composition of Comparative Example 3 could not be converted into ink, it was not evaluated.

上記実施例で使用した材料の詳細は以下の通りである。
・酸化チタン（１） ＴＩＴＯＮＥ Ｒ－３２（Ａｌ_２Ｏ_３処理、平均粒子径：０．２３μｍ、堺化学工業株式会社製）
・酸化チタン（２） ＴＩＴＡＮＩＸ ＪＲ－６００Ａ（Ａｌ_２Ｏ_３処理、平均粒子径：０．２５μｍ、テイカ株式会社製）
・酸化チタン（３） ＴＩＴＡＮＩＸ ＪＲ－４０５（Ａｌ_２Ｏ_３処理、平均粒子径：０．２１μｍ、テイカ株式会社製）
・酸化チタン（４） ＧＴＲ－１００（ＺｒＯ_２・Ａｌ_２Ｏ_３処理、平均粒子径：０．２６μｍ、堺化学工業株式会社製）
・酸化チタン（５） ＴＩＴＡＮＩＸ ＪＲ－７０１（ＺｎＯ・ＳｉＯ_２・Ａｌ_２Ｏ_３処理、平均粒子径：０．２７μｍ、テイカ株式会社製）
・カオリン （Ｓａｔｉｎｔｏｎｅ ５ＨＢ、平均粒子径：０．８μｍ、ＢＡＳＦ株式会社製）
・ＡＮＴＩ－ＴＥＲＲＡ ２５０ （高分子量酸性ポリマーのアルキロールアンモニウム塩、ビックケミー株式会社製）
・ＤＩＳＰＥＲＢＹＫ－１８０（酸基を含む共重合物のアルキロールアンモニウム塩、ビックケミー株式会社製）
・ポリビニルアルコール（１）ゴーセノールＧＭ－１４（１０％水溶液、ケン化度８６．５ｍｏｌ％～８９．０ｍｏｌ％、重合度１７００、日本合成化学工業株式会社製）
・ポリビニルアルコール（２）ゴーセノールＧＬ－０３（１０％水溶液、ケン化度８６．５ｍｏｌ％～８９．０ｍｏｌ％、重合度４００、日本合成化学工業株式会社製）
・ポリビニルアルコール（３）ゴーセノールＧＨ－２３（１０％水溶液、ケン化度８６．５ｍｏｌ％～８９．０ｍｏｌ％、重合度２６００、日本合成化学工業株式会社製）
・アクリル樹脂（１） アクリル樹脂エマルション（難水溶性、固形分含有量４２％、ＢＡＳＦ株式会社製、商品名：Ｊｏｎｃｒｙｌ ７１１）
・アクリル樹脂（２） アクリル樹脂エマルション（難水溶性、固形分含有量４９％、ＢＡＳＦ株式会社製、商品名：Ｊｏｎｃｒｙｌ ＰＤＸ－７３４１）
・アクリル樹脂（３） アクリル樹脂エマルション（難水溶性、固形分含有量４２％、ＢＡＳＦ株式会社製、商品名：Ｊｏｎｃｒｙｌ ＰＤＸ－７３７０）
・アクリル樹脂（４） 自己架橋型アクリルスチレン共重合樹脂エマルション（難水溶性、固形分含有量３８％、ＢＡＳＦ株式会社製、商品名：Ｊｏｎｃｒｙｌ ＰＤＸ－７４３０）
・アクリル樹脂（５）水溶性アクリル樹脂（スチレンアクリル酸共重合体水溶液、固形分量２７％、ＢＡＳＦ株式会社製、商品名：Ｊｏｎｃｒｙｌ ＪＤＸ－６１８０）
・セルロース誘導体 カルボキシメチルセルロース（１０％水溶液、第一工業製薬株式会社製、商品名：セロゲン５Ａ）
・ポリオレフィン樹脂粒子（１） 変性ポリエチレンワックス（平均粒子径：８μｍ、固形分：１００％、ビックケミー株式会社製、商品名：ＣＥＲＡＦＬＯＵＲ９２９）
・ポリオレフィン樹脂粒子（２） 変性ポリエチレンワックス（平均粒子径：６μｍ、固形分：１００％、ビックケミー株式会社製、商品名：ＣＥＲＡＦＬＯＵＲ９２５）
・ポリオレフィン樹脂粒子（３） 低密度ポリエチレン（平均粒子径：６μｍ、４０％ディスパージョン、三井化学株式会社製、商品名：ケミパールＭ２００）
・ポリオレフィン樹脂粒子（４） 低密度ポリエチレン（平均粒子径：０．６μｍ ４０％ディスパージョン 三井化学株式会社製、商品名：ケミパールＷ４００５）
・ＳＡＮＤＹＥＳＵＰＥＲＣＯＬＯＵＲ ＢＬＡＣＫ Ｃ－Ｅ（有機顔料 山陽色素株式会社製）
・ＳＡＮＤＹＥＳＵＰＥＲＣＯＬＯＵＲ ＢＬＵＥ ＧＬＬ－Ｅ（有機顔料 山陽色素株式会社製）
・ＳＡＮＤＹＥＳＵＰＥＲＣＯＬＯＵＲ ＲＥＤ １３２１－Ｅ（有機顔料 山陽色素株式会社製）

The details of the materials used in the above examples are as follows.
-Titanium oxide (1) TITONE R-32 (Al ₂ O ₃ treatment, average particle size: 0.23 μm, manufactured by Sakai Chemical Industry Co., Ltd.)
-Titanium oxide (2) TITANIX JR-600A (Al ₂ O ₃ treatment, average particle size: 0.25 μm, manufactured by TAYCA CORPORATION)
-Titanium oxide (3) TITANIX JR-405 (Al ₂ O ₃ treatment, average particle size: 0.21 μm, manufactured by TAYCA CORPORATION)
-Titanium oxide (4) GTR _- 100 (ZrO2 / _Al2O3 treatment, _average particle size: 0.26 μm, manufactured by Sakai Chemical Industry Co., Ltd.)
-Titanium oxide (5) TITANIX JR-701 (ZnO, SiO ₂ , Al ₂ O ₃ treatment, average particle size: 0.27 μm, manufactured by TAYCA CORPORATION)
・ Kaolin (Satintone 5HB, average particle size: 0.8 μm, manufactured by BASF Japan Limited)
-ANTI-TERRA 250 (ulchilol ammonium salt of high molecular weight acidic polymer, manufactured by Big Chemie Co., Ltd.)
DISPERBYK-180 (alkylol ammonium salt of copolymer containing acid group, manufactured by Big Chemie Co., Ltd.)
Polyvinyl alcohol (1) Gosenol GM-14 (10% aqueous solution, saponification degree 86.5 mol% -89.0 mol%, polymerization degree 1700, manufactured by Nippon Synthetic Chemical Industry Co., Ltd.)
Polyvinyl alcohol (2) Gosenol GL-03 (10% aqueous solution, saponification degree 86.5 mol% -89.0 mol%, polymerization degree 400, manufactured by Nippon Synthetic Chemical Industry Co., Ltd.)
Polyvinyl alcohol (3) Gosenol GH-23 (10% aqueous solution, saponification degree 86.5 mol% -89.0 mol%, polymerization degree 2600, manufactured by Nippon Synthetic Chemical Industry Co., Ltd.)
-Acrylic resin (1) Acrylic resin emulsion (difficult to water-soluble, solid content 42%, manufactured by BASF Corporation, trade name: Joncryl 711)
-Acrylic resin (2) Acrylic resin emulsion (difficult to water-soluble, solid content 49%, manufactured by BASF Corporation, trade name: Jonclyl PDX-7341)
Acrylic resin (3) Acrylic resin emulsion (difficult to water-soluble, solid content 42%, manufactured by BASF Corporation, trade name: Jonclyl PDX-7370)
Acrylic resin (4) Self-crosslinking acrylic styrene copolymer resin emulsion (difficult to water-soluble, solid content 38%, manufactured by BASF Corporation, trade name: Joncryl PDX-7430)
Acrylic resin (5) Water-soluble acrylic resin (aqueous solution of styrene acrylic acid copolymer, solid content 27%, manufactured by BASF Corporation, trade name: Joncryl JDX-6180)
-Cellulose derivative Carboxymethyl cellulose (10% aqueous solution, manufactured by Dai-ichi Kogyo Seiyaku Co., Ltd., trade name: Cellogen 5A)
Polyolefin resin particles (1) Modified polyethylene wax (average particle size: 8 μm, solid content: 100%, manufactured by Big Chemie Co., Ltd., trade name: CERAFLOUR929)
-Polyolefin resin particles (2) Modified polyethylene wax (average particle size: 6 μm, solid content: 100%, manufactured by Big Chemie Co., Ltd., trade name: CERAFLOUR 925)
-Polyolefin resin particles (3) Low density polyethylene (average particle diameter: 6 μm, 40% dispersion, manufactured by Mitsui Chemicals, Inc., trade name: Chemipearl M200)
-Polyolefin resin particles (4) Low-density polyethylene (average particle diameter: 0.6 μm 40% dispersion manufactured by Mitsui Chemicals, Inc., trade name: Chemipearl W4005)
・ SANDYESUPERCOLOR BLACK CE (organic pigment manufactured by Sanyo Dye Co., Ltd.)
・ SANDYESUPERCOLOR BLUE GLL-E (organic pigment manufactured by Sanyo Dye Co., Ltd.)
・ SANDYESUPERCOLOR RED 1321-E (organic pigment manufactured by Sanyo Dye Co., Ltd.)

The prepared water-based ink composition was evaluated as follows. The results obtained were as shown in Tables 1 to 3.
As the marking pen used in the evaluation test, the following marking pen was prepared and used. Marking pen: A spherical agitator made of a metal material with a diameter of 8 mm and an ink composition with a volume of 6 cm ³ are built into the ink container (inner dimensions: length 80 mm, diameter 16 mm) of the marking pen equipped with a pen tip. Then, the water-based ink compositions obtained in Examples 1 to 25 and Comparative Examples 1 to 3 are filled, the pen tip is impregnated with the water-based ink composition, and the pen tip is made of bullet-shaped polyester having a pore ratio of 60%. Writing was done as a marking pen using a fiber nib.

(Evaluation of redispersibility)
Centrifuge the above marking pens with a centrifuge (trade name: himacCF7D2, manufactured by Hitachi, Ltd.) at 3000 rpm for 5 minutes, and then shake each marking pen up and down to compose the water-based ink. The redispersion state of the object was visually observed. The aggregated state was evaluated according to the following criteria.
A: Easily redispersed by shaking B: Redispersed by shaking but taking a long time C: Not sufficiently redispersed by shaking D: Not redispersed by shaking

(Evaluation of writeability (1))
Writing was performed on the writing test paper with the above marking pen. The writing performance at that time was visually observed. As the writing test paper, a writing paper conforming to JIS P3201 was used.
A: No blurring and good handwriting B: Slightly blurry but no practical problem C: Blurred but practical D: Severe blurring and practical concern E: Blurred F: Too much ink, handwriting cannot be recognized, and it is not practical.

(Evaluation of writeability (2))
The marking pen was left facing upward for 14 days, and then writing was performed on a writing test sheet. The writing performance at that time was visually observed. As the writing test paper, a writing paper conforming to JIS P3201 was used.
A: Good handwriting B: The first brush is slightly thinner, but there is no problem in practical use
C: The first brush becomes thinner but practical D: The first brush becomes thinner and it takes time to get a good handwriting, and there is a practical concern E: It is impossible to write and it is not practical

(Evaluation of handwriting color development)
Writing was performed on the writing test paper with the above marking pen. The color development of the handwriting at that time was visually observed. As the writing test paper, a writing paper conforming to JIS P3201 was used.
A: Good handwriting with no color unevenness B: Some handwriting has color unevenness but no problem in practical use C: Handwriting has color unevenness and there is a concern in practical use

(Evaluation of handwriting dryness)
Writing was performed on the writing test paper with the above marking pen. The writing dryness at that time was visually observed. As the writing test paper, a writing paper conforming to JIS P3201 was used.
A: After 5 seconds, even if you rub the handwriting by hand, the handwriting does not flow and there is no problem. B: After 10 seconds, even if you rub the handwriting by hand, the handwriting does not flow and there is no problem C: The handwriting It takes more than 15 seconds to stop flowing, and there is a problem

(Evaluation of abrasion resistance test)
Writing was performed on the writing test paper and the polypropylene sheet with the above marking pen. After leaving this writing line for one day, rub it 50 times with a cotton cloth under a load of 200g using a Gakushin type friction fastness tester (manufactured by Tester Sangyo Co., Ltd.), and compare the handwriting after rubbing with the initial handwriting. , The abrasion resistance was evaluated according to the following criteria. As the writing test paper, a writing paper conforming to JIS P3201 was used.
A: No handwriting peeling
B: There is some handwriting peeling but there is no practical problem C: There is handwriting peeling but it is practical D: There is handwriting peeling and there is a practical concern E: There is a lot of handwriting peeling and it is not practical thing

Claims (5)

An ink composition containing pigment particles, a constitutional material, an alkylolammonium salt of a basic acid, polyvinyl alcohol, a cellulose derivative, an acrylic resin, and a solvent, wherein the constitutional material is kaolin, and the above-mentioned Polyvinyl alcohol has a degree of saponification of 80 to 95 mol% and a degree of polymerization of 500 to 4000, the cellulose derivative is carboxymethyl cellulose, the acrylic resin contains a self-crosslinking acrylic styrene copolymer resin, and an ink. Based on the total mass of the composition, the content of the constitutional material is 5 to 15% by mass, the content of the polyvinyl alcohol is 0.3 to 1.5% by mass, and the content of the cellulose derivative is 0. A water-based ink composition for writing utensils , characterized in that the content is 0.02 to 0.2% by mass and the content of the acrylic resin is 1 to 6% by mass . The water-based ink composition for writing tools according to claim 1, which comprises polyolefin resin particles. The water-based ink composition for writing tools according to claim 2, wherein the polyolefin resin particles are polyethylene resin particles. The water-based ink composition for writing tools according to claim 2 or 3, wherein the content of the polyolefin resin particles is 0.01 to 10% by mass based on the total mass of the water-based ink composition. A writing instrument comprising the composition according to any one of claims 1 to 4.