JP5813964B2 - Bright pigment and method for producing the same - Google Patents

Description

  The present invention relates to a luster pigment mainly composed of bismuth oxychloride and a method for producing the same. Furthermore, the present invention relates to a coating composition, a coated article, and a cosmetic containing the glitter pigment.

  As a glitter pigment, bismuth oxychloride which has a unique soft glitter gloss and is nontoxic is known, and is used in various paints and cosmetics. However, bismuth oxychloride is easily reduced to black by being reduced to metal bismuth by irradiation with ultraviolet rays. To suppress such photochromic properties, soluble bismuth salt and chloride ions are mixed in an aqueous medium under hydrolysis conditions to produce an aqueous dispersion of bismuth oxychloride crystals and about 80% of crystal formation. When 95% is completed, a method of adding fine metal oxides such as zinc oxide and titanium oxide to the aqueous medium and embedding fine metal oxide particles almost on the surface of the bismuth oxychloride crystal is known. (See Patent Document 1).

JP 2005-536592 A

  The above prior art is a method of embedding fine metal oxide particles such as zinc oxide and titanium oxide in the surface of bismuth oxychloride crystal. Although the light stability of bismuth oxychloride pigment is improved to some extent, bismuth oxychloride is improved. Since the process control is complicated because the metal oxide particles are added when about 80 to 95% of the crystal formation is completed, further improvement in light stability by a simpler method is desired.

  As a result of studying a method for improving the light stability of bismuth oxychloride, the present inventors have found that the surface of bismuth oxychloride particles having a thickness of 1 to 100 nm composed of a metal oxide and / or a metal hydroxide is formed. As a result, it was found that excellent light stability was obtained, that a unique opal color glossiness was maintained, and that no interference color was developed.

  That is, the present invention relates to (1) a glitter pigment having a coating of 1 to 100 nm in thickness composed of metal oxide and / or metal hydroxide on the particle surface of bismuth oxychloride, and (2) bismuth oxychloride. A method for producing a luster pigment, comprising adding a metal compound to a suspension to form a coating having a thickness of 1 to 100 nm composed of a metal oxide and / or a metal hydroxide on the particle surface of bismuth oxychloride. 3) Coating compositions, coated articles, cosmetics and the like containing the glitter pigment.

  Since the glitter pigment of the present invention has a coating having a thickness of 1 to 100 nm composed of a metal oxide and / or a metal hydroxide on the particle surface of bismuth oxychloride, the photochromic property of bismuth oxychloride can be suppressed. Also, it has a unique soft opal color luster luster. Moreover, since the thickness of the coating is 1 to 100 nm, the interference color does not appear so much.

  When the metal oxide and / or metal hydroxide is a particle having a particle diameter of 0.5 to 50 nm and the particle forms the coating, the photochromic property can be further suppressed.

  When the metal oxide and / or metal hydroxide contains at least one element selected from the group consisting of silicon, aluminum, titanium, tin, zinc, antimony and iron, the photochromic property is further suppressed. Can do.

  Since the crystallinity is good when the metal oxide and / or metal hydroxide is fired, the photochromic property of bismuth oxychloride can be further suppressed.

  The glitter pigment of the present invention has excellent light stability, and the color difference ΔE before and after BLB irradiation is 0.5 to 10.0.

  In the present invention, a metal compound is added to a suspension of bismuth oxychloride, and a coating having a thickness of 1 to 100 nm composed of metal oxide and / or metal hydroxide is formed on the particle surface of bismuth oxychloride. This is a method for producing a glittering pigment to be formed, and a glittering pigment having excellent light stability can be easily produced.

  The glitter pigment of the present invention is excellent in light stability and can be used in various applications. For example, the glitter pigment can be used in coating compositions, coated articles, cosmetics, etc. Automobiles, trains, buildings, etc. that have been painted.

2 is a scanning electron micrograph of Sample A obtained in Example 1. FIG. 2 is a scanning electron micrograph of Sample A obtained in Example 1. FIG.

  The present invention is a glittering pigment having a coating of 1 to 100 nm thick composed of a metal oxide and / or a metal hydroxide on the particle surface of bismuth oxychloride. As the bismuth oxychloride itself, a conventionally known one can be used, and the particle shape, particle diameter and the like can be appropriately set. The particle shape is preferably a flaky shape in order to give a unique opal luster gloss, and the particle size is preferably about 0.1 to 100 μm in terms of the number average value of the maximum particle size of the flaky particles, About 1-50 micrometers is more preferable. It is preferable to incorporate trivalent metal ions such as aluminum and gallium and rare earth metal ions such as lanthanum and cerium into the crystal of bismuth oxychloride because the light stability is improved.

  It is important to have a coating having a thickness of 1 to 100 nm composed of a metal oxide and / or a metal hydroxide on the particle surface of bismuth oxychloride, and a bright pigment having excellent light stability by this coating It can be. By setting the thickness of the coating to a range of 1 to 100 nm, the interference color does not appear strongly. A preferred thickness is 10 to 100 nm, and a more preferred thickness is 20 to 100 nm. The coating of the metal oxide and / or metal hydroxide may be a single layer or a multilayer of two or more layers, and the thickness of each layer of the coating can be appropriately set in the range of 1 to 100 nm.

Examples of the metal oxide and / or metal hydroxide constituting the coating include transition metals and oxides and hydroxides of typical metals including silicon. Metal oxides include hydrous oxides and hydrated oxides. Specifically, a metal oxide and / or metal hydroxide containing at least one element selected from the group consisting of silicon, aluminum, titanium, tin, zinc, antimony, and iron is preferable, and has high ultraviolet shielding ability. Titanium oxide that can suppress the photochromic property of bismuth oxychloride is more preferred. The titanium oxide may be amorphous, but preferably has a crystal form such as rutile or anatase. Furthermore, it is more preferable to form a coating of a metal oxide and / or metal hydroxide of silicon or aluminum on titanium oxide because it can suppress the expression of photocatalytic activity of titanium oxide when exposed to ultraviolet rays. .
The metal oxide and / or metal hydroxide is preferably fired as described later. Since the crystallinity is improved by firing, the photochromic property of bismuth oxychloride can be further suppressed. Although the temperature of baking can be set suitably, the range of 300-700 degreeC is preferable so that it may mention later, and the range of 400-600 degreeC is more preferable.

The glitter pigment of the present invention has excellent light stability, and as an index thereof, the color difference ΔE before and after BLB irradiation is preferably 0.5 to 10.0, more preferably 0.00. It is 5-7.0, More preferably, it is 0.5-6.0. The color difference ΔE before and after BLB irradiation is measured as follows. Spread a sample of glitter pigment on the medicine wrapping paper and irradiate it with black light (BLB) having an intensity of 8 mW / cm ² for 24 hours, and calculate the color difference ΔE between the sample before black light irradiation and the sample after black light irradiation. Calculated from the following formula. The color difference was measured using a spectrocolorimeter SD-5000 manufactured by Nippon Denshoku Industries Co., Ltd.
Color difference ΔE = ((L * −L * 0) ² + (a * −a * 0) ² + (b * −b * 0) ² ) ^(1/2)
* L * 0, a * 0, b * 0; powder L * value before black light irradiation, a * value, b * value * L *, a *, b *; powder L * value after black light irradiation, a * value, b * value

  The coating amount of the metal oxide and / or metal hydroxide can be appropriately set according to the thickness of the coating, and is preferably about 0.01 to 50% by weight with respect to the weight of bismuth oxychloride, for example, 0 About 1 to 10.0% by weight is more preferable, and about 0.5 to 5.0% by weight is most preferable. If the coating amount of the metal oxide and / or metal hydroxide is less than 0.01% by weight, it is not preferable because the improvement of the light stability is not sufficient. On the other hand, if it exceeds 50% by weight, the light stability is further improved. This is not preferred because it is difficult to improve.

  The glitter pigment of the present invention may be provided with a metal oxide and / or metal hydroxide coating on the surface of bismuth oxychloride particles and then coated with an organic substance such as a coupling agent or an organic surface modifier. Examples of coupling agents include silane coupling agents, titanate coupling agents, and aluminate coupling agents. Silane coupling agents include aminopropyltriethoxysilane, N- (β-aminoethyl) -γ-aminopropyltriethoxysilane, N-phenyl-γ-aminopropyltrimethoxysilane, vinyltrimethoxysilane, vinyltriethoxy. Silane, vinyltrichlorosilane, γ-glycidoxypropyltrimethoxysilane, methacryloxypropyltrimethoxysilane, β- (3,4-epoxycyclohexyl) ethyltrimethoxysilane, and the like can be used. As the titanate coupling agent, an amine, phosphorous acid type, pyrophosphoric acid type, carboxylic acid type titanate coupling agent or the like can be used. As the aluminate coupling agent, acetoalkoxyaluminum diisopropylate or the like can be used. The organic surface modifier is used to further improve the dispersibility in solvents, coating compositions, plastics, and durability of the coating film, and the type of organic surface modifier depending on the purpose. Can be selected as appropriate, for example, silicone, lecithin, resin, adhesive, silane compound, fluorine compound, ultraviolet absorber, polyhydric alcohol, amino acid, dye, fatty acid, carboxylate, metal soap, oil, wax, etc. Is preferably used, and a plurality of treatment agents having different effects can be combined. The treatment amount of the coupling agent and / or the organic surface modifier can be appropriately set according to the purpose, and the range of 0.1 to 100% by weight in terms of the total amount of organic matter is appropriate for the glitter pigment. is there.

  Next, the present invention is a method for producing a luster pigment, in which a metal compound is added to a suspension of bismuth oxychloride, and a metal oxide and / or metal hydroxide is formed on the surface of the particles of bismuth oxychloride. A coating having a thickness of 1 to 100 nm is formed.

  The suspension of bismuth oxychloride is obtained by suspending bismuth oxychloride in a solvent. As the solvent, an aqueous solvent, an organic solvent such as alcohol can be used, and an aqueous solvent, an alcohol solvent, or a mixture of water and alcohol. A solvent is preferred.

  A metal compound is added to a suspension of bismuth oxychloride, and pH adjustment, hydrolysis, etc. are performed to deposit a metal oxide and / or metal hydroxide on the particle surface of bismuth oxychloride, and a thickness of 1 to 100 nm. Form a coating. When the pH adjustment or hydrolysis is performed, the metal oxide and / or metal hydroxide constituting the coating are preferably particles having a particle diameter of 0.5 to 50 nm.

  Examples of the metal compound include compounds of transition metal elements and typical metal elements including silicon. Specifically, at least one compound selected from the group consisting of silicon, aluminum, titanium, tin, zinc, antimony, and iron is preferable, and a titanium compound that becomes titanium oxide having high ultraviolet shielding ability is more preferable. As the metal compound, compounds such as metal chloride, sulfate, nitrate, acetate, sodium salt, etc. can be used, adjusted to neutral precipitation pH, adjusted to pH and temperature to hydrolyze, Alternatively, metal hydroxide, hydrated oxide, hydrated oxide, oxide, or the like is deposited by an adsorption reaction. After depositing the metal oxide and / or metal hydroxide, the solvent may be removed, washed as necessary, and dried.

  Moreover, it is preferable to bake the bismuth oxychloride which precipitated the metal oxide and / or metal hydroxide as needed. The firing temperature can be appropriately set. Specifically, the range of 300 to 700 ° C is preferable, and the range of 400 to 600 ° C is more preferable. If it is lower than 300 ° C., it is not preferable because the crystallinity is low and sufficient light stability is difficult to obtain. On the other hand, if it is higher than 700 ° C., the metal oxide itself or the metal hydroxide itself is likely to be sintered, yellowing, etc. It is not preferable because coloring is likely to occur. The firing time can be appropriately set, and about 0.5 to 10 hours is appropriate. The firing atmosphere may be any atmosphere, and may be air, an oxygen-containing atmosphere such as oxygen gas, an inert atmosphere such as nitrogen gas or argon gas, or a reducing gas atmosphere such as hydrogen gas.

  The bright pigment thus obtained may be pulverized as necessary to form a powder. Moreover, you may perform the surface treatment of the said inorganic substance and organic substance. Furthermore, the glitter pigment of the present invention can be dispersed in an aqueous solvent and / or an organic solvent to form a dispersion. As the solvent, an aqueous solvent, an organic solvent such as alcohol or toluene can be used, and the content of the glitter pigment can be appropriately set. When manufacturing a dispersion, you may wet-grind or classify as needed.

  The glitter pigment of the present invention and the dispersion containing it can be used as a glossiness imparting agent, and examples of the composition containing them include paint compositions, plastic moldings such as inks and films, and the like. Excellent glitter can be used. In such a composition, the glitter pigment of the present invention is blended in an arbitrary amount, preferably 0.01% by weight or more, and in addition, a composition forming material used in each field is blended, These additives may be blended.

  For coating compositions and inks, film-forming materials or ink film-forming materials, solvents, dispersants, pigments, fillers, thickeners, flow control agents, leveling agents, curing agents, crosslinking agents, curing catalysts, etc. Is blended. Examples of coating film forming materials include organic components such as acrylic resins, alkyd resins, urethane resins, polyester resins, and amino resins, and inorganic components such as organosilicates and organotitanates. In this case, urethane resin, acrylic resin, polyamide resin, vinyl acetate resin, chlorinated propylene resin and the like can be used. Various materials such as thermosetting resin, room temperature curable resin, and ultraviolet curable resin can be used for these coating film forming material and ink film forming material. When a resin is used, a photopolymerization initiator or photosensitizer is blended, and UV light is applied and cured after application, a coating with excellent hardness and adhesion can be obtained without applying a thermal load to the substrate. Therefore, it is preferable.

  In the case of plastic moldings, plastics, pigments, dyes, dispersants, lubricants, antioxidants, UV absorbers, light stabilizers, antistatic agents, flame retardants, bactericides, etc., together with the glitter pigment of the present invention Kneading, forming into any shape such as film. As the plastic, a thermoplastic resin such as polyolefin resin, polystyrene resin, polyester resin, acrylic resin, polycarbonate resin, fluororesin, polyamide resin, cellulose resin, polylactic acid resin, or thermosetting resin such as phenol resin or urethane resin is used. be able to.

  Next, examples of the coated article containing the glitter pigment of the present invention include vehicles such as automobiles, motorcycles, trains, and ships, buildings such as buildings, bridges, and houses, and electric products such as mobile phones, personal computers, and televisions. Can be mentioned. For these coated articles, a coating containing an arbitrary amount of glitter pigment, preferably 0.01% by weight or more, is applied to the surface of the article.

  A conventionally known method can be used as the coating method, and the coating composition is applied to the surface of the article by electrodeposition coating, spraying, bar coater, dipping or the like, dried, and baked as necessary. For example, in the coating of an automobile outer plate, the “2-coat 1-bake method” is used as a general method for coating film formation, and the “3-coat 2-bake method”, “ A conventional method called “3-coat 1-bake method” can be employed.

  Next, in addition to the glittering pigment of the present invention, the cosmetic includes other components that are usually used in cosmetics and pharmaceuticals, for example, other powder components, liquid fats, solid fats, Wax, hydrocarbon, higher alcohol, ester, silicone, anionic surfactant, cationic surfactant, amphoteric surfactant, nonionic surfactant, moisturizer, water-soluble polymer, thickener, film agent, UV absorption Agent, sequestering agent, lower alcohol, polyhydric alcohol, sugar, amino acid, organic amine, polymer emulsion, pH adjuster, skin nutrient, vitamin, antioxidant, antioxidant aid, fragrance, water, etc. are required Depending on the dosage form, it can be prepared by a conventional method according to the intended dosage form.

  The cosmetic of the present invention can be widely applied to cosmetics, pharmaceuticals, and quasi-drugs applied to the outer skin. The dosage form is arbitrary, such as solution system, solubilization system, emulsification system, powder dispersion system, water-oil two-layer system, water-oil-powder three-layer system, gel, aerosol, mist, capsule, etc. It can be provided in the form. In addition, the product form of the cosmetic is also arbitrary, facial cosmetics such as lotion, milky lotion, cream and pack; makeup cosmetics such as foundation, funny, blusher, lipstick, eye shadow, eyeliner, mascara and sunscreen; Body cosmetics; Aromatic cosmetics; Makeup removers, facial cleansers, skin cleansers such as body shampoos; hair cosmetics such as hair rinses and shampoos; ointments; bath preparations; It can be applied in any form.

  The present invention will be described more specifically with reference to the following examples. However, the present invention is not limited to these examples.

Example 1
Disperse 10 g of bismuth oxychloride (PEARL-GLO UVR, manufactured by BASF) in pure water to a concentration of 10 g / L, and maintain the water temperature at 20 ° C. or lower while maintaining the water temperature at 20 ° C. or less (bismuth oxychloride weight) Sample A was obtained by adding 2.0% by weight as titanium oxide) and sodium hydroxide solution in parallel so that the pH was 5 or less over 2 hours.
Next, this sample A was baked at 400 ° C. for 2 hours in an electric furnace (form; SS-2030PKP, manufactured by Motoyama) to obtain sample B.
Samples A and B had a coating thickness of 25 to 30 nm, and the coating was formed of particles having a particle diameter of 20 to 25 nm.

Example 2
10 g of bismuth oxychloride (PEARL-GLO UVR, manufactured by BASF) was dispersed in pure water to a concentration of 10 g / L, and the water temperature was raised to 80 ° C. Next, after adding sodium silicate so as to be 2.0% by weight with respect to the weight of bismuth oxychloride in terms of SiO ₂ , aging is performed for 30 minutes, and then the pH is adjusted with sulfuric acid (pH = 7.0 ± 0). .1) was performed. Furthermore, it filtered and wash | cleaned, and dried for 12 hours at 120 degreeC, and the sample C was obtained.
Next, this sample C was baked at 400 ° C. for 2 hours in an electric furnace (form; SS-2030PKP, manufactured by Motoyama), and sample D was obtained.
Samples C and D had a coating thickness of 50 to 70 nm, and the coating was formed of particles having a particle diameter of 30 to 50 nm.

Comparative Example 1
As a comparative sample, sample E was the bismuth oxychloride itself used in Example 1.
Sample F was obtained by baking Sample E at 400 ° C. for 2 hours.

Light Stability Evaluation Each sample was spread on a medicine wrapping paper, irradiated with black light having an intensity of 8 mW / cm ² for 24 hours and 48 hours, and light resistance was evaluated by a color difference ΔE with the sample before black light irradiation. The color difference was measured using a spectrocolorimeter SD-5000 manufactured by Nippon Denshoku Industries Co., Ltd.
The color difference ΔE was calculated by the following formula. (JIS Z 8730 compliant)
Color difference ΔE = ((L * −L * 0) ² + (a * −a * 0) ² + (b * −b * 0) ² ) ^(1/2)
* L * 0, a * 0, b * 0; powder L * value before black light irradiation, a * value, b * value * L *, a *, b *; powder L * value after black light irradiation, a * value, b * value Table 1 shows the results. Samples A and C were found to have a smaller color difference ΔE, better light stability and better light resistance than sample E. Furthermore, it was found that Samples B and D had smaller color difference ΔE, better light stability and better light resistance than Samples A, C, E and F, respectively.

  The glitter pigment of the present invention has a coating having a thickness of 1 to 100 nm composed of metal oxide and / or metal hydroxide on the particle surface of bismuth oxychloride, and can suppress the photochromic property of bismuth oxychloride. In addition, since it has a unique soft opal luster gloss and does not exhibit much interference color, it can be used for various applications, for example, coating compositions, painted articles, cosmetics, etc. it can.

Claims (9)

Brightness having a coating having a thickness of 1 to 100 nm composed of a metal oxide and / or metal hydroxide which is a fired product of at least one metal element selected from the group consisting of silicon and titanium on the particle surface of bismuth oxychloride Pigments.   The glitter pigment according to claim 1, wherein the metal oxide and / or metal hydroxide is a particle having a particle diameter of 0.5 to 50 nm. The bright pigment according to claim 1 or 2 , wherein a color difference ΔE before and after BLB irradiation is 0.5 to 10.0. At least one metal compound selected from the group consisting of silicon and titanium is added to a suspension of bismuth oxychloride to precipitate the metal oxide and / or metal hydroxide of the element on the particle surface of bismuth oxychloride. Next, a method for producing a glitter pigment, which is fired to form a coating having a thickness of 1 to 100 nm composed of at least one metal oxide and / or metal hydroxide selected from the group consisting of silicon and titanium . The method for producing a glittering pigment according to claim 4 , wherein the metal oxide and / or metal hydroxide is particles having a particle diameter of 0.5 to 50 nm. The method for producing a bright pigment according to claim 4 , wherein the firing temperature is 300 to 700 ° C. 5. The coating composition containing the luster pigment as described in any one of Claims 1-3 . The coated article containing the luster pigment as described in any one of Claims 1-3 . Cosmetics containing the luster pigment according to any one of claims 1 to 3 .

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