TWI255193B - High-colority composition of titanium oxide, coating compositions, cosmetic compositions and processes thereof - Google Patents

Abstract

The present invention relates to a high-colority composition of titanium oxide, which having the interference colors with excellent brilliance and brightness and the residual colors with no turbidness. Coating compositions of the high-colority titanium oxide composition may form a coating layer on the surface of a thin flat substrate, the thin substrate having size of 50-800 mM and thickness of 0.05-0.6 mM, the coating layer comprising 70-95 wt% of the titanium composition. The stripping composition formed by stripped from the coating layer may be used as cosmetics and have great effects.

Description

1255193, 1 Disadvantages I# S repair (more) IX, invention 〖月一·-----------------^ [Technical field of invention] The present invention relates to Gao Hong The colored titanium oxide composition; specifically, the composition of the surface of the flaky substrate is coated, and the titanium composition is peeled off to form a titanium composition. The present invention further relates to the above-mentioned exfoliation composition to produce a cosmetic. In particular, this cosmetic composition uses a smooth touch, is transparent, and interferes with it, and can suppress color spots (skin defect correction effect), and has UV sunscreen and photoinduced Mph〇t〇chr〇mic effect. . [Prior Art] A metal oxide such as fertilized iron or titanium oxide is used on natural mica to produce a coating of pearl fresh. Such conventional pearlescent coatings have disadvantages such as insufficient brightness, color residual discs, and turbidity of the remaining color. If synthetic mica is used as the raw material, the product with high transparency can be used as the pearlescent paint of Youli. However, the synthetic mica crystals are too hard and easy to produce, if it is in the usual place, the surface is evenly inferior to the domain mica; the transparency and the whiteness of the butterfly are both as the frosty few && The pearl gloss coating of titanium and other films is also the second: high interference color brightness 'also known as oxidized (four) oxidation: for soil shell Wei titanium, etc. as a pearl gloss coating. 1255193 Material, _, / / Titanium is characteristic of whiteness, UV-shielding, etc. It is used as a cosmetic, resin or _ additive, but its user is a granular micro-manufactured by Baizhi method. Polar, therefore, there are shortcomings in coating, exhaustion, dispersion and so on. The method for producing sheet-like titanium oxide, although it is found in Japan, is licensed to 9132_, but has a gloss and an interference color of titanium oxide. Color is an important factor affecting human psychology and physiology. In order to use the color = influence the scope of the human body and mind to create a safe and efficient work environment and a healthy and comfortable life environment, the use of color adjustment technology in various fields. In general, to impart color to an object, various coloring paints are utilized. Such pigmented coatings exhibit various colors by absorption, reflection, and the like of light; however, coloring coatings are gradually unable to cope with the increased sensibility and demands of various people in recent years. Therefore, the phenomenon of light interference is added to the coloring paint, and the oxidized capsule is born by the pearlescent paint of the complex mica. This pearl paint is characterized by a change in color tone depending on the angle of observation. This is called "flip-flop". Such pearlescent coatings can be used in the fields of cosmetics, coatings, drying agents, printing inks, resin incorporation, etc. However, it is obvious that 1255193 has the following disadvantages, such as pearlescent coatings, natural mica, synthetic Mica oxidizes Ilu, gasified fossils, ashes acid glass, 'shipeng acid glass, and other flake-like, flaky particles are cores, and then coated with titanium dioxide. By controlling the amount of titanium dioxide coated, it has a pearl luster with various interference colors. . When such a pearlescent paint composition coating is used as a cosmetic, a coating, a printing ink, an adhesive, or a resin, the particles are too thick to form an ultrathin film, and the edge of the particles is too scattered, and the film cannot be excessively scattered. Effectively play the proper "chameleon effect". Further, regarding the synthesis of the titanium oxide flake particles, the flake-shaped titanium oxide described in Japanese Patent No. 2979132 is attached to a porous body having a large specific area, and the acid is immersed in a contact with the hydrogen-oxygen solution to cause lamellar crystal _, heating Then, flaky titanium oxide is obtained. After the layered crystal lion obtained from the titanic acid is layered, an ultrathin titanium oxide having a thickness of only nanometers can be obtained. However, since the thickness is too thin, the flaky oxide does not have any interference color. In addition, the sheet-like titanium oxide described in JP-A-62-237936, JP-A-62-247834, JP-A-62-213833, is attached to the roll box by a sol-gel method (Sol Gel). Heating, forming an oxide, and then firing it with a spatula to 'heat and burn a number of pearl-like flakes of titanium oxide; but in order to remove the scraper, the particles must be fine, and the particle thickness is micro-level, resulting in all interference No color can be colored. 1255193 [Summary of the Invention] jtAt -λ» J,CC» A novel with interference color

The spot has a uv sunscreen and photochromic effect.

The coating layer, which is sufficient to solve the above problems, can solve the above problems, and the high-color titanium oxide composition is solved. Specifically, a metal oxide based on anatase or rutile type titanium oxide or a coating layer coated with a metal hydroxide is formed on the surface of the flaky substrate, and the coating layer is added to the coating layer. A peeling composition obtained by peeling off the surface of the flaky substrate. This peeling composition can be used as a composition which simultaneously has an ideal gloss and emits an interference color. That is, the composition of the present invention is one or more flaky substrates selected from natural mica, synthetic mica, glass flakes, ceria flakes, alumina flakes, and barium sulfate, and coated on the surface thereof. A titanium composition or a titanium hydroxide composition. Therefore, the peeling composition of the high iridescent titanium oxide composition is a titanium composition peeled off from the coated composition. 1255193 The gloss of the above-mentioned peeling composition; mixing the crepe-based transparent nitrocellulose varnish 3 part with the above-mentioned peeling composition, and then coating it with a coater on a white-black concealment test paper JISK5400 4 mils;堀 制 光泽 13 13 13 13 13 13 13 试 试 试 试 试 试 试 试 试 试 试 试 13 13 试 13 13 13 试 13 13 13 试The high-color oxidized composition of the high-color colored titanium oxide domain of the present invention, and the color of the high-yield titanium oxide domain of the present invention, and high-quality products. The method for preparing a rainbow colored titanium oxide composition, which comprises providing a thin layer composition formed of a titanium composition of emulsified titanium or Wei-titanium on a surface of a thin enamel substrate, and peeling off the thickness of the coating layer to obtain a peeling composition, and Its method of production. What is different from the prior art is that the composition of Na, which is obtained by the specific conditions, can be used as a makeup material, and the high-color color of the titanium (tetra) color titanium oxide composition can be used as an object. As shown in Fig. i, the surface of the material matrix contains a metal oxide or metal hydroxide coating layer 2 based on a cerium-titanium- or rutile-type oxidized cut. It is a coating composition of a light, a specific thickness of 〇·〇5~Q. 6 eggs. The range of 1255193 is preferably 100 to 700 mm. If it is less than 1 〇〇//m, the particles of the peeling composition described later are too fine, and the interference color of the high rainbow color is too weak. Weak base plasmid: The diameter is larger than the foot m, and the interfering color of the occupational color is too strong, and the particles are easy to be ▼ with a rough feeling. In addition, between (10)_, the gloss is strong enough and easy to peel off. Specifically, it can conform to a thin 4-shaped matrix with a small diameter of the recording surface, such as natural mica, synthetic mica, glass flakes, cerium oxide thin flakes, oxidized ingot flakes, and acid strontium. The shape and surface smoothness of the dioxide are easily controlled. Further, since the surface-coating layer 2 is easily glossy, it is preferable as the sheet-like substrate 1. Although the thickness of the flaky substrate 1 is not limited, it is ideal for 〇· ;!~;! 0 // m. If the particle thickness is lower than 〇. The periphery of the granule is easy to bend, and the interference between the coated titanium oxide and the titanium oxynitride cannot be fully exerted. On the other hand, when the particle thickness exceeds the center m, the titanium oxide and the titanium oxide which are applied to the particle plane and the four sides are different from the exfoliated titanium oxide and the titanium hydroxide, resulting in insufficient interference gloss. The layer 2' contains an emulsified titanium or a titanium hydroxide composition, and the coating is thick to a specific thickness until the (four) light is stopped. It is ideal for the surface titanium dioxide or titanium tetrachloride soluble water solution or titanium wire based water plus water. Further, the coating layer 2 is provided with a reinforcing agent such as dioxo, oxidized, Zr, or Zn, and the light-resistant 10 1255193 and the pulverization strength of the peeling composition can be improved. ^The size of each particle is 集合1~4. When the size of the fl particle is 3gg_, the composition of the emulsified or titanium hydroxide of 0〇2// is the most easily stripped, and the particle size of the matrix 1 is the brain. The coating layer 2 can be easily peeled off even if it is a small particle diameter of the G. heart m. The particle diameter of the matrix 1 is smaller than that of the steel layer _, and the particle diameter of the coating layer 2 cannot be _ 5 M. That is, the particle diameter of the matrix 1 is inversely proportional to the particle diameter of the coating layer 2. In the present invention, the coating composition shown in Fig. 1 is completed first, and if it is not shown in Fig. 2, the composition 2 is peeled off from the coating composition to obtain the peeling composition 2a. That is, the high iridescent titanium oxide composition of the present invention is coated with the metal oxide of the composition coating layer 2 or the metal hydroxide, and the peeling composition 2a formed by peeling off the surface of the flaky base 1 is used. The flaky substrate may be a commercially available flaky powder, or a natural mica, a mother glass sheet, a cerium oxide sheet, an oxidized sheet, a sulfuric acid lock or the like. For example, the Indian flake natural mica is placed in the atmosphere at 800 ° C for 2 hours, and then the calcined natural mica is immersed in drinking water for 5 days, and then the flake-shaped natural mica is pulverized by a superfine grinder. You can get it later. Further, the surface of the coating is coated with 1255193-oxygen or ?g compound, such as water glass, organic cerium oxide, or soluble aluminum salt, and the coating material is removed from the coated object to obtain a peeling composition having good weather resistance and no bending. As described above, the coating composition is coated with a titanium oxide or a titanium hydroxide composition having a specific thickness before the surface of the flaky substrate, until the cake is formed. It is desirable to use #TiO2 or a titanium tetrahydrate soluble aqueous solution or a titanium alkoxide metal to be decomposed by water. When the composition is to be peeled off, the coated composition is fired at 300 to 800 ° C in advance, and placed in an alkaline environment (pH 8 or higher), and the coating layer is peeled off from the thin plate-like substrate to obtain a curl-free and excellent smoothness. Stripping composition of sex. Thereby, the gloss and interference color of the peeling composition are improved. If the firing temperature is lower than 3 〇〇 ° C, the particles of the peeling composition are curled. If the height is K8 〇〇 t:, the titanium oxide or the titanium hydroxide of the peeled composition is agglomerated, resulting in poor gloss and interference color after peeling. . After the peeling composition is filtered, washed with water, and dried, it is fired at 5 〇〇 to 9 〇〇 π to maintain gloss and prevent curling. In addition, other post-peeling treatments include over-coated iron oxide, diamond, nickel, warp, sodium, potassium, colored inorganic compounds, or organic paint colorants, which can be achieved by various known branches. This financial extract has a peeling composition of the Shanghong color titanium composition, the thickness can be selected from 0.05 to 0.6 #m, and the range of light 'thickness 0·1~0·9#m is ideal. If the composition is too thin, it is not easy to produce 1255193. If the composition is too thick, the interference color intensity will be scattered due to the thickness, resulting in poor interference strength. • The high iridescent titanium composition of the present invention is applied to a paper tape, and the coated paper tape is placed on a black substrate, and the relationship between the interference color and the geometric thickness of the titanium composition is shown in Table 1. According to the high-intensity color recording of the present invention, the more (4) the red color chroma is higher. The foot 'thin is too high-color titanium to shout particles _-, but 2 scattered light can still get the desired interference color. In the 'invention of the present invention, the specific particle size of the high-yellow titanium composition and the shape of the thin plate are neatly drawn, the average particle diameter of the laser diffraction scattered diameter is _, and the volume is distributed within the range of A±. Even the above frequency is ideal; in addition, regarding the shape of the thin plate, the particles are observed by a bronzing electron microscope, and when the number of particles is calculated by a magnification of 2000 times, the thin plate shape and the particle are connected, and the thickness is more than 1.5 times or more and the number of particles is less than 1%. Ideal. In order to maintain the uniformity of the particle size, it is desirable to carefully perform the pulverization and the sizing when adjusting the smoothness of the flaky base f. If the seam is sewed, it is called; the original ore of 2~8 mesh is read and smashed, and then the hydraulic analysis is carried out, so that it is better to choose the average-sex. What is more, the surface of the flaky substrate having a smooth and uniform particle diameter is coated with a titanium composition of 1255193, and the interference color is more uniform after the titanium composition is peeled off. According to the above-mentioned party, the _ group·, the (4) 纮 color oxidation composition is picked up, and the thickness of the gloss is light. When it is finer than coatings and other applications, the direct surface reflection is reflected and penetrated, and the reflected reflected light interferes with each other. The high-color interference color can be obtained due to the difference in phase. When the high iridescent titanium oxide composition of the present invention is uniformly applied to the coated surface, the fine light rays, the reflected light from the surface of the coated surface particles, and the residual particles reflected by the inflection rate of different ages transmit light, and interfere with each other. , get a specific interference color. This interference color can be determined by controlling the thickness of the coating layer of the coating composition. (Comparative Example 1) Fig. 8 is a graph showing the results of analysis of the titanium oxide composition of the peeling composition of the present invention by a three-dimensional gloss meter. The present invention is peeled off one part of the composition, and mixed with 30 parts of acrylic transparent nitrocellulose lacquer, and then coated with a coater on a white-black concealment test paper JISK54 〇〇 up 4 mil; followed by a concealment rate test paper black bottom , gcms~4 type with three-dimensional gloss, incident angle of 45°, reflection angle (color measurement angle) 〇~75. For color measurement, the measurement is performed at intervals of 5°. 14 1255193 The control paint 'uses Germany's Merck (^61\:1〇 company's 11^〇(^[1 pearlescent coatings (hereinafter referred to as IR) 225, 219, 235. From the analysis results can be seen that the oxidation of the present invention The titanium composition can exhibit a wide range of interference colors. Specific manufacturing examples are listed below, and the production examples are not limited to the technical scope of the present invention. (Manufacturing Example 1) Indian flake natural mica 1·〇 kg is placed in the atmosphere 0^ After burning for 2 hours at a temperature, the sheet of natural mica was immersed in 10 liters of drinking water after cooling, and placed under /JDL for 5 days, and then treated with a superfine particle mill manufactured by Zengxing Industrial Co., Ltd. to treat the flakes. Mica 2 is back to the powder floor, and the pulverized fired natural mica is transferred into a 50 liter polyethylene sump, and a 2% hexametaphosphoric acid aqueous solution is added, totaling 45 liters. Stirring with a screw mixer, static After 5 minutes, the upper clear liquid was moved to the other ones to 'repeated this step 3 times, and the large particles above the 〇·imm were separated, and the standard sieve 10 mesh (800 Μ) and 65 mesh (203//m) were used. Screening and granulating to obtain a particle diameter of 150 g of 10 to 65 mesh. After that, 150 g of mica was added to the sulphur after centrifugation. Titanium 400g and drinking water 4.5 liters, stir and dissolve titanium sulphate in a spiral mixer. After it is dissolved, stir 15 1255193 and heat at the same time, and then hydrolyze at 9 〇t: above temperature for 4 hours. After cooling It was washed with water, filtered, and dried at 150 ° C. Then it was baked at 300 ° C for 2 hours. One surface was observed for observation of the surface state, and it was observed by Hitachi S-2100B electron microscope (SEM) at 20000 times. As shown in Fig. 4, the coating composition has a particle diameter of 0·02//m. The water-washed powder is added to a 10% aqueous alkali solution, adjusted to pH 11, and then immersed and allowed to stand. The upper part of the granules floated off the powder, filtered and washed with water. The water-washed granulated powder was added with ammonium sulphate 8·325 g and dissolved into 5 liters of aqueous solution, followed by 4 g of hydroxy-gasified hydrazine and 18 g of urea. At the same time, heating, 5 hours 80 ° C or more plus water decomposition treatment, after cooling, washed with water, ◎,: 150 ° C. The dry powder was placed in the atmosphere, 7 〇〇〇 c burned into 2 small 曰 。.克. The powder was measured by MniFlex, an X-ray diffractometer manufactured by Rigaku Electric Co., Ltd. Its X-ray diffraction is shown as the third @G, but the amplitude is large but the oxygen is reduced to the wide anatase type. In addition, it is magnified 2 times and 2 times by scanning electron microscope (SEM). The results are shown in the first sheet, and are in the form of flakes. The average plate diameter is 〇·24//m. The acrylic nitrocellulose lacquer 3 丨 is mixed with 丨 gram of this product and coated with 16 1 The black and white concealment rate test paper JISK5400 was coated with 4 mils, and the black matrix was obtained by the 光泽 制 光泽 光泽 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 In addition, the black matrix tone angle dependence was determined. Therefore, a three-dimensional gloss meter GCMS-4 type was manufactured by Murakami Color Research Laboratory at an incident angle of 45. The color measurement is taken out at an angle of 0° to 75°, and the color is measured every 5°. Transforming L · a · b, the hue ab is flattened, and as shown in Fig. 8, the color changes from green to cyan and blue. In order to investigate the composition of this product, weigh 2 g of the correct amount, add sulfuric acid and ammonium sulfate, and dissolve after heating. After cooling, water, hydrochloric acid, and aluminum metal are added to reduce titanium; after cooling, the potassium thiocyanate solution is used as an indicator to titrate the ammonium iron(III) sulfate solution to determine the amount of titanium (%). As a result, the oxidation was 95.0%. In addition, in order to make a bribe, the ammonium was determined to be 394.40 nm by wavelength and the ZSXIOOe was 343. 82mn was quantified according to the calibration method. As a result, the ammonium and the oxidized form were 1.15% Å and the erbium was 鍅. That is, the product is a constituent of the composition of oxidized phlegm 95. 〇%, ammonium oxide is h 15%, and zirconia is L _. (Manufacturing Example 2) The synthetic laser mica (10) y industrial system has a laser path of (10) field m, and an average of 30 ft. Add 1255193 to 400 liters of drinking water and 175 grams of tin chloride and 1 mole/liter of aqueous sulfuric acid solution, adjusted to ρΗ1·9. Stir while heating to raise the temperature to 8 Torr. After the crucible, a 1/3 mol/liter aqueous solution of titanium tetrachloride hydrochloride and a 15% aqueous caustic solution were used to maintain the pH, and a tetrahydrogenated titanium hydrochloric acid aqueous solution was added dropwise at a flow rate of 〇·12 kg per minute for 10 hours. . After cooling, the stirring was stopped and the supernatant liquid was decanted. The residual powder was added to 400 liters of water and stirred, and a 15% aqueous caustic solution was added to adjust pjj to & 5 to 7. 5, followed by filtration, washing with water, and drying at 150 °C. The dried powder was fired at 8 ° C for 2 hours in the atmosphere. In the same manner as in Production Example 1, the surface state was observed by SEM, and an aggregate having a coated particle size of 0·016 was found. The calcined powder was immersed in 4 liters of a sodium carbonate aqueous solution of pH 12, and after 5 days, the mixture was sufficiently stirred by a helix, and 2 liters of a hexamic acid 2% aqueous solution was added thereto, followed by stirring. After uniform dispersion, the upper layer powder was separated by decantation. This step is repeated to recover the upper layer of powder. After the upper layer of the powder was washed with water and filtered, the filtered powder was immersed in a water-repellent water solution of 400 liters of ρΗ9·2 and spirally expanded; While maintaining the pH of 9.2, the mixture was heated to 8 ° C, and a 3 mol / liter aqueous solution of sodium citrate and aqueous hydrochloric acid was continuously added with a sodium citrate aqueous solution of 〇 〇 85 liters per minute. hour. After cooling for 2 hours, filtration, and washing with water, 18 1255193 was dried at 150 ° C to obtain 18 kg of powder. 6 is the same as the manufacturing m, and the clear device measures the light diffraction. χ光 凡,,,,,,,,,,,,,,,,,,,, The SEM observation was as shown in Fig. 7 as a sheet, with an average plate diameter of 15/m and a thickness of 4545/m. In the same manner as in the first embodiment, the white and black concealment rate test paper JISK54〇〇 and the three times of gloss measurement were used for color measurement, and composition analysis was performed. The silk gloss test value is 60 to 8 〇, and the color tone angle dependence varies from yellow-green to green, moon, and color. 3%。 The composition of the analysis results, the titanium oxide was 88.5%, and the cerium oxide was 10.3%. (Production Example 3) 1 kg of a glass flake having a laser diameter of 50 to 200//m and an average of 140/m, which is RCF140 (manufactured by Ryukyu Seiki Co., Ltd.), was placed in a 40-liter helium container, and a 10% titanium sulfate aqueous solution was added thereto. 5 liters of sulphuric acid aqueous solution, 5 liters of urea and 10 liters of drinking water are stirred, 〇· 〇 莫 莫 莫 , , , , , , , 螺旋 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 After cooling, the mixture was washed with water. Add 10% sodium and 30 liters of drinking water to bring the pH to 8.8 and heat to 80 °C. While maintaining the pH, add 1 ul/liter of water glass water at a rate of q liters per minute, > glutamine 〇·85 liters, and an aqueous solution of sulfuric acid in 1255193 for a while, after 3 hours of ripening. After cooling, Production Example 1 is the same, ^W SEM 砚 其 其 其 其 其 , , , , , 其 其 其 其 其 其 其 其 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 砚 熟 砚12 'Place for 4 days. Then separate the powder of the upper clear liquid by the spiral decantation method. This step _ take the upper layer to clarify the powder. The recovered Qin, l water, filter, 150 〇 c dry. Dry After being placed in the atmosphere, it was fired at 3 ° C for 1 hour to obtain a powder of 65 〇g. The obtained powder was diffracted by X-ray, and it was found that it was a broad-cut type. The average diameter is 8 m and the thickness is 〇.35_. The experiment is carried out in the same manner as in Production Example 1. The result shows that the gloss test value is 60 ' and the color angle dependence of the color measurement is between reddish purple and red. Change. From the perspective of the age of the group, it can be seen that 70% of titanium oxide and 2.8% of cerium oxide, and another (Production Example 4) An Indian-made flake-form natural mica was fractionated by the same strip of 4 cows in Production Example 1. This mica lkg was placed in a 4 liter helium vessel, and a 1% by weight titanium sulfate aqueous solution was added. 17 liters, 0. 06 Mohr / liter of sulfuric acid aqueous solution 5 liters, urea 1 〇〇 g 1255193 and drinking water 10 liters, spiral agitation, heating to 9 〇 ° C or more after 6 hours of water do not handle. After the cold After washing with water and filtering, add 10% aqueous solution of tonic solution and 30 liters of drinking water. Keep the pH of the liquid at 10, stir with nitrogen and heat to 80 ° C. Keep the pH and temperature and add 〇·5 Mo 1 / liter of the first aqueous solution of sulfuric acid 〇 · 2 liters, 10% aqueous sodium solution, and continuously added sulphuric acid first iron aqueous solution for 15 minutes at a flow rate of 〇 14 liters per minute. After the cold portion, the surface state was observed by SEM in the same manner as in Production Example 1, and the particle size of the coating was 0·〇4//m, and even the particles of 〇·3//m were scattered on the surface. Add 1 mol/L of sodium carbonate aqueous solution to pH 12 and let it stand for 4 days. The powder of the supernatant liquid was separated. This step was repeated to recover the powder in the supernatant liquid. The recovered powder was washed with water, filtered, and dried (15 rc). After drying, it was placed in the atmosphere and calcined at 500 C for 1 hour to obtain a powder gram. The obtained powder was subjected to X-ray diffraction, and it was found that the broad anatase type and the iron oxide (10)03> SEM observation showed that the sheet shape was 8 m in average and the thickness was G.36 _. _ Sexual experiment. The result shows that the gloss measurement is 6′′, and the color dependence depends on the red 21 1255193. The color changes from red to yellow. The result is analyzed from the composition analysis. It can be seen that there are 99% of titanium oxide and 1% of iron oxide. In the present invention, the composition described above can be used as a cosmetic. Further, the amount of the peeling composition of the cosmetic is preferably from 5 to 50% by weight. When the amount is less than 5% by weight, the effect of suppressing color spots is lacking. On the other hand, when it exceeds 50% by weight, the red color is too strong, which is not preferable. The present invention can be used as a skin cosmetic such as a skin cream, a foundation, a sunscreen lotion, a foundation cream, a Thai cake, a dry powder cake, an eyeliner, an age, a lipstick, a nail polish, and the like, and the form thereof is not limited. Further, such a cosmetic is the same as the general cosmetic manufacturing method except that it is blended with the above-mentioned peeling composition of the present invention. In addition to the above-mentioned peeling composition, in addition to the above-mentioned peeling composition, powders (paints, pigments, resins), oils, surfactants, FU compounds, resins, alcohols, which are used in combination with general cosmetics, may be added as needed. , polymer compounds, UV inhibitors, antioxidants, adhesives, preservatives, fragrances, moisturizers, physiologically active ingredients, salts, dissolution, chelating agents, neutralizers, pH adjusters, water, and other ingredients, etc. . Take powder as an example, such as red 104, red 201, yellow 4, blue 1, black 401, etc., yellow 4 A1 rouge, yellow 2〇 3 22 1255193 (four) marshmallow, etc. (four), nylon Powder, silk powder, ester powder, special gas powder, strontium powder, cellulose powder, Shixi synthetic rubber, chitin M and other polymers, oxygen, double sugar, alginic acid, group main, iron, black oxidation Iron, chrome oxide, black carbon, moon-hanging enamel coloring paint, 4 gluten Λ = - paint, stone dry, too, emulsified lead, bismuth oxide, etc. white stone m, riding, dip, clay, gambling , oxygen touch, magnesium oxyacid, frequency Ming, frequency magnesium and other body f paint, fine particles 2, miscellaneous sub-error, microparticle oxygen (10), and other materials anti-purple powder -, fiber _, 4 soil 1 (four). The shape and size of the chore are not limited. f, the above powder 'may (4) know various kinds of money and silk treatment, such as h oxime treatment, Wei treatment, fluorochemical treatment, metal treatment, hydrazine treatment, fatty acid treatment, N- hydrazine acid treatment, water Heterogeneous polymer compound treatment, resin treatment, plasma treatment, machine chemical treatment, etc. can be classified into zero oil, which can be divided into mobile stone soil, thirty carbon burned, 2-ethylhexanol hexadecane, and fourteen /, propyl eucalyptus oil, sesame oil and other liquid oil, petrolatum, solid sarcophagus, tallow, water-containing lanolin, dense soil, recorded bad, cholestyritol and other semi-solid ~ solid fat 'mine mining, 22 burning alcohol and other advanced Alcohol, palmitic acid, glycerol tristearic acid vinegar and other high-grade linonic acid, poly Weilu, and Wei Weilin conductor. 23 1255193 Interface active agent, can be divided into sorbitan fatty acid ester, glycerol fatty acid

酉曰♦Epoxyethylene (hereinafter referred to as POE), sorbitan fatty acid ester, poE glycerin fatty acid ester, P0E alkyl ether, P〇E polyepoxy propylene alkyl ether, p〇E polyepoxypropylene copolymer Body, P〇E alkylphenyl ether, P〇E hardened sesame oil, polyethylene glycol ruthenium acid, non-plasma such as decaglycerin fine valvule, decyl diethanolamine; 1 surface active agent, burning Sulphate, POE alkyl ether sulfate, poe alkyl ether acetate, alkyl phosphate, POE alkyl ether phosphate, higher fatty acid salt, higher fatty acid plus water-decomposing gelatin salt, amino acid negative ion interface, _ Lipid, acetic acid beet test and other amphoteric surfactants, chlorinated trimethyl sulphide, gasified di- dimethylammonium chloride, chlorinated diterpene sulphate ammonium and other positive ionic surfactants. Alcohol can be divided into monovalent alcohols such as ethanol, propanol and benzyl alcohol, polyvalent alcohols such as 1,3 butanediol, propylene glycol, dipropylene glycol, glycerol, polyethylene glycol and sorbitol. . The knife and the material can be divided into a polyethylene ratio of 6 ketone, a vinyl ratio of each ketone oxime ethylene '", a propylene-based resin, an alkanolamine, a vinyl acetate butyric acid polymer, a thiol _ Maleic acid monofilament ester polymer, N-methyl propyl hydrazine ethyl-N, N-dimethylammonium 1-N-methyl lin beet test / methyl acrylate acid fine polymer, two Ethyl Wei [County Secret - N, N - 24 1255193 Dimethylaminoethyl methacrylic acid polymer, carboxyethyl cellulose dimercapto-indolyl ammonium chloroformate, sulphur-based ethylene polymer, carboxyl group Base cellulose salt, ethyl cellulose, etc. In addition to the above ingredients, an amino acid, hyaluronic acid and other heat insulating agents, hydroxybenzene, amino acid and other ultraviolet absorbers, vitamin E, dibutyl-toluene may be added. Such as antioxidants, phenoxyethanol and other preservatives, isopropyl methyl _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ An anti-inflammatory agent such as glycine, an inorganic salt such as sodium chloride, a chelating agent, a coloring matter, a fragrance, etc. In addition, the scales are not limited to the technical scope of the present invention, and the amount of cosmetic ingredients indicates that unless otherwise specified, 'all are in mass frequency. Before the formal embodiment, the effect of the invention is tested first. The method is described. Experimental methods: The evaluation items are divided into __, natural transparency, and correction of skin defects (fine lines, stains, etc.), which are tested by 2 professional subjects. Evaluation by the subject. (Evaluation score benchmark) 5 points: Very good. 25 1255193 4 points: Excellent. 3 points: Normal. 2 points: Bad. 1 point: Very bad. (Evaluation criteria) ◎: Total score of 80 points or more 〇: The total score is 60 or more, less than 80. △: The total score is 40 or more, less than 60. X: The total score is less than 40. Listed in Table 1 Example 1~2, Comparative Example 1 The powder cake in the prescription of 2 is stirred and mixed with 1 to 12 shown in Table 1, and then uniformly mixed by heating and mixed with 13 to 20. The obtained mixture is pulverized and prepared by molding the container. Example composition 1 2 1 2 1 slip 9 9 9 9 2 Mica 10 10 10 10 3 Sericite 18 18 18 18 4 Synthetic mica 15 15 15 15 5 Release composition of Production Example 3 of the present invention 15 6 Release composition of Production Example 4 of the present invention 15 7 Barium sulfate 5 5 5 5 8 Titanium oxide 12 12 12 12 1255193 9 Iron oxide 4 4 4 4 10 Titanium oxide coated mica (red interference) 15 11 Titanium oxide coated mica (yellow interference) 15 12 Boron nitride 2 2 2 2 13 Vaseline 2 2 2 2 14 dimethyl polyoxyalkylene 3 3 3 3 15 liquid sarcophagus 2 2 2 2 16 triisooctanoic acid glycerol 2 2 2 2 17 sesquiisostearic acid 1 1 1 1 18 preservative Appropriate amount of appropriate amount of appropriate amount of 19 antioxidants appropriate amount of appropriate amount of appropriate amount of 20 flavor appropriate amount of appropriate amount of the appropriate amount of the above Examples 1 to 2, the results of sensory evaluation of Comparative Examples 1 to 2 are listed in the second table. Table 2

EXAMPLES Comparative Example 1 2 1 2 Smooth touch feeling ◎ ◎ 〇〇 Natural transparency ◎ ◎ XX can suppress interference of color spots (skin defect correction effect) 〇〇〇〇 Photochromic effect X ◎ XX The photochromic effects listed are marked with ◎ indicating very high and X being absent.

As is apparent from the second table, in the production example 3, the production example 1 and the second embodiment of the production example 4, the peeling composition has a smooth use and a natural transparency, and the interference can effectively suppress the color spots (skin Defect correction effect); 27 1255193 In addition, Example 2 still has an excellent photo-induced effect. On the other hand, in the case of the titanium oxide-coated mica instead of the exfoliation composition of the present invention, the sliding property, the natural transparency, and the photo-effect were all poor, and it was found that the effect of the present invention could not be exhibited. Examples of the cosmetic of the present invention are listed below in terms of various prescriptions. Further, the above sensory test was carried out on such a cosmetic, and the cosmetics of the present invention of all the examples were excellent. Example 3 Solid powder cake IB1 Blue component 1 Polyxanthine treatment sericite _ 15 2 Polyoxan treatment of synthetic mica 15 ^ _ 3 Oxygen treatment of synthetic talc slightly ^ S - 4 - The invention of the production example 2 Deuterium treatment of stripping composition 15 ^^^_ 5 treatment of spherical cerium oxide 5 ^ 6 boron nitride 2 ^__ 7 p oxane treatment of titanium oxide 10 ^ s_ 8 oxirane treatment of particulate titanium oxide 7 ^^_ 9 Polyoxane treatment of iron oxide 4 10 Polyoxane treatment of lead oxide 5 ---^-__ 11 triacontan 3 12 dimethyl polyoxane 4 ------ - 13 Methylpropyl polyoxyalkylene 3 ^^_ 14 Octyl methoxy cinnamate 15 sesquisyl succinate _ 1 ^^_ 16 蠘 蠘 ' ' ' ' ' ' ' ' ' ' —--- 17 Antioxidant 1S^^^^_ 18 Perfume amount ^S^ - ^^^^_ 28 1255193 Mix 1 to 10 ingredients, mix with 11~18 ingredients, stir, then crush The latter is placed in a container and filled to form a solid powder cake. Example 4 Ingredients in water-based emulsified cosmetic compound (mass %) 1 purified water a: F noon 2 propylene glycol 4 3 glycerol 2 4 sodium metaphosphate suitable for Dong 5 bentonite 1.5 6 potassium hydroxide 0.5 7 palmitic acid 1.1 8 Trimethyl benzoic acid 19 TiO 2 10 10 Iron oxide 11 The peeling composition of the production example 4 of the present invention 10 12 Titanium oxide coated platy barium sulfate 3 13 Talc 5 14 Mica 2 15 Spherical cerium oxide 3 16 Glycerol Stearate 1 17 monotrimethyl benzoate polyepoxysorbitol 0.5 18 hexadecanol 0.4 19 shark liver alcohol 0.5 20 mobile sarcophagus 5 21 dimethyl polyoxy siloxane 5 22 桂 桂 酉Para methoxy cinnamate) 2-ethyl 3 23 Preservatives Appropriate amount 24 Perfume and appropriate ingredients 1 to 5 ingredients are uniformly stirred and mixed, added to 6 to 8 to be mixed, 1255193 and then dispersed and pulverized 9 to 15 to be dispersed. After heating and dissolving, 16 to 25 are uniformly added for emulsification to obtain an oily emulsified cosmetic in water. Example 5 Aqueous Emulsified Cosmetics in Oil Ingredients (% by mass) 1 Polysiloxane treatment of cellulose powder 5 2 Polypyrone treatment of exfoliation composition of Production Example 1 12 3 Polyoxynitride treatment of titanium oxide Coated barium sulfate 4 4 Polyoxane treatment of titanium oxide 10 5 Polyoxane treatment of iron oxide 4 6 Polyoxane treatment of talc 3 7 Polyoxane treatment of synthetic mica 4 8 Refined water rp 9 Dipropylene glycol 8 10 Decamethylcyclopentaoxane 25 11 dodecylcyclohexaoxane 15 12 dimethylpolyoxyalkylene 4 13 polydecane oxide resin 2 14 polyether denatured 矽lf 15矽I 0.5 1 16 Dimethyl benzoic acid 1 17 Antioxidant amount 18 Preservatives The ingredients of 10 to 18 are uniformly mixed, and then the components of 1 to 7 are added, mixed and pulverized, and then dispersed. Then, it is uniformly mixed and dissolved, and then 8 to 9 is added to emulsify, and after filling into a container, an aqueous emulsified cosmetic in oil is obtained. Example 6 Eyeshadow compounding component|Compounding amount (% by mass) 1255193 1 Talc a little 2 Sericite 6 3 Synthetic mica 12 4 Spherical PMMA powder 3 1 5 1 platy barium sulfate-1- 2 iz" 6 Production example 3 of the present invention Peeling composition 8 7 Iron oxide 2 8 Boron nitride 3 9 Thirty carbon yard 2 10 Dimethyl polyoxane 2 11 Monooleic acid sorbitan 1 12 Preservative amount 13 Perfume amount 1 to 8 each The ingredients are mixed and pulverized, and 9 to 13 ingredients are mixed and then scrambled, and the eyeshadow is formed by forming in the middle dish. Example 7 Oily foundation milk with ingredients (% by mass) 1 Palm 鱲 1 2 Small candle tree 鱲 2 3 Pure earth 鱲 10 4 30 carbon house slightly 5 Triisooctanoic acid glycerol 9 6 bisisostearate Triol 11 7 High viscosity dimethyl polyoxane 6 8 Low viscosity dimethyl polyoxyalkylene 5 9 Polyoxyalkylene resin 7 10 Hydroxypropyl one / 3 - Cyclodextrin i 1 11 Macadam Nut oil fatty acid cholesteryl 3 12 sodium citrate 0.5 13 hydrophobic cerium oxide Of 14 refined water 2 1255193

Heat to 7 〇1 u, disperse into 12, and add 10 uniformly dissolved into 'full mix. Add another person to dissolve the solution, dissolve it within 1~9, stir it, add 15 20 and then disperse the lining. Finally, fill it into a container to form oily foundation. Example 8 Lipstick

With ingredients ^~~~... - with content (quality 1 polyethyl jti~~ _ —-- 1 i 2 pure earthworm - 2 -^^ 3 water-containing lanolin ~~" 1〇丨-4 polybutene ^ 5 sheep methoxy cinnamate 9 ^ 6 monomethyl polyoxane 11 '^^^^~ 7 ss ^ -- 6 ^^— 8 9 titanium oxide red 201 ' 5 ^^— 10 11 red No. 202 ' " Red 223 No. 7 1 ; ^- 12 L_J I-JJ/J Spherical polyethylene powder J 0.5 13 The peeling composition of Production Example 3 of the present invention 0.5 14 Antioxidant... 2 15 Perfume 2·ί; -^ —^—J After heating and dissolving 1~7, mix well, add this liquid to 8~11, mix with three 32 1255193 roll kneader, heat the mixing slurry to 80 °C and add 12~15 The mixture was stirred and filled, and filled into a lipstick-forming container to obtain a lipstick. Example 9 Sunscreen spray compounding amount (% by mass) 1 Polysiloxane treatment of fine particles of lead oxide 11 2 Treatment of the polyoxane of Production Example 1 of the present invention Stripping composition 12 3 decamethylcyclopentaoxane 18 4 fluorinated fluorene resin 6 5 polyoxyalkylene elastomer spherical powder 10 6 road soil 0.8 7 methyl propyl Polyoxymethane 35 8 Dimethylpolyoxane 7.2 9 Preservatives The ingredients of 1 to 9 are mixed and dispersed in a disperser, and then filled into a container together with a stainless steel ball to obtain a finished product. First, shake it and use it again.Example 10 Solid emulsion for base compounding amount (% by mass) 1 Octyloxycinnamate 5 2 Sorbitol sesquiisosyl 1.5 3 Isostearic acid 1.5 4 Polyethylene oxide dimethyl polyoxyalkylene methyl 0.2 5 dimethyl fluorenone (low boiling point) 26.4 6 Dimethyl fluorenone (high boiling point) 4.0 7 Polyoxane treatment of Production Example 2 of the present invention Stripping composition 2.0 8 Polyoxyalkylene treated titanium oxide 1.0 9 Polyoxyalkylene treated fine particles titanium oxide 6.0 10 Polyoxyalkylene treated sericite 2.0 11 Polyoxyalkylene mica 6.0 1255193 12 Purpose powder 13 Antioxidant 14 - 15 Refined water 16 17 Preservatives _ 18

It: ~6 mixed: hot to 8 °. . , force, after uniform _· ^ into the Vd after 12, in the separately made 16, add η, add two to make a homogeneous solution, add 18 and then heat to 耽 to shape emulsification. After adding 13~14, degassing and filling to the shaft cooling to obtain the finished product. Example 11 Nail Polish

Mix 1 to 3 and 7 to 8 by hot roll kneading, mix well with adding 4~6 to 10, stir evenly, add 9 towels to disperse, and fill into the container, ie 34 1255193, get nail polish. . Further, the high-yield titanium oxide composition of the present invention can be effectively applied to a surface or a calendering functional material in addition to cosmetics, paints and inks. According to the above description, the present invention provides a high iridescent titanium oxide composition which produces an excellent luminous sensation by an interference color: a high vivid color and a residual color is not turbid. Here, the rainbow-colored titanium oxide composition is attached to the surface coating layer of the shape-correcting substrate, and the sheet-like matrix has a sheet shape of about 50 to 800/m, and the thickness is m6. The coating layer contains 7 to 95% by mass. Titanium composition. The peeling composition formed by peeling off the coating layer of the titanium composition of the composition coating layer is a composition of two iridescent titanium oxides. Furthermore, the high-color titanium oxide composition of Lanhua (referred to herein as a peeling composition) is used as a cosmetic to provide excellent smoothness, natural penetration, and interference on the skin side. Color spots (skin touch positive effect), UV protection effect, photochromic effect, etc. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a conceptual view of a coating composition of a high iridescent titanium oxide composition of the present invention. Fig. 2 is a schematic view showing the production process of the composition of the high iridescent titanium oxide of the present invention. Fig. 3 is a graph showing the results of ray diffraction analysis of the coated composition of the present invention. 35 1255193 Fig. 4 is a photomicrograph of the surface state of titanium oxide of the coated composition of the present invention. Fig. 5 is a graph showing the relationship between the interference color of the titanium oxide composition of the peeling composition of the present invention and the film thickness of the titanium layer. Fig. 6 is a photomicrograph of the titanium oxide composition of the peeling composition. Fig. 7 is a photomicrograph of the titanium oxide composition of the peeling composition. Fig. 8 is a table showing the results of a three-dimensional gloss meter analysis of the titanium oxide composition of the peeling composition of the present invention. [Description of main component symbols] 1 flaky substrate 2 coating layer 2a peeling composition

36

Claims (1)

I255im mouth Patent application scope 1. A high iridescent titanium oxide composition characterized by a flaky substrate surface having a size of about 50 to 800//m composed of natural mica, synthetic mica, glass flakes, cerium oxide flakes, alumina flakes, and barium sulfate. On the other hand, a coating layer of a titanium composition having a thickness of 0.05 to 06//m and containing 70 to 95% by mass of titanium dioxide or titanium hydroxide is formed, and the average particle diameter of the laser diffraction scattering diameter is A#m, and is at A A volume of 60% or more is distributed in the range of ±4#m, the particle diameter is formed neatly, and the high iridescent titanium oxide composition formed by the exfoliation composition is peeled off from the coating composition. 2. If you apply for a patent scope! A high iridescent titanium oxide composition according to the item, characterized in that the peeling composition is mixed with an acrylic acrylic transparent base paint, and then coated with a coater, and a white black concealed test paper suit 5 shed. The upper 仃 4 岔 ear coating; after the 堀 field made gloss tester ig_3_ test, the gloss value was found to be 55~90 at 6 ° ° c. 3. If you apply for a patent scope! The high iridescent titanium oxide composition described in the item is characterized in that the exfoliation composition contains 5 to 20% by weight of a reinforcing agent selected from the group consisting of cerium oxide, cerium and zirconium. 4. A high iridescent oxidized composition according to the fourth aspect of the patent application, characterized in that the frequency is above 7〇%. 37 ^ 55193 A high-color titanium oxide composition according to any one of the first to fourth aspects of the patent application, characterized in that the above-mentioned peeling composition can be used as a cosmetic, paint or ink, and a composition for external use. Any one of a binder composition, a resin mixture, and a photocatalyst. 6. If you apply for a patent range! A high-color color oxidizing composition as described in the above item is characterized in that the above-mentioned peeling composition can be peeled off by hydrolysis of a soluble titanium salt aqueous solution or titanium alkoxide. 7. A high iridescent titanium oxide composition according to claim i, characterized in that the peeling composition is subjected to baking, washing with water, and drying at 300 to 800 ° C to be peeled off. 8. A high iridescent titanium oxide composition according to claim i, wherein the exfoliating composition is exfoliated in an aqueous solution. 9. A high iridescent titanium oxide composition according to the invention of claim i, characterized in that the exfoliation composition is capable of being stripped in an aqueous solution of pH 8 or higher, such as a soluble carbonate or a gas oxide salt salt aqueous solution. . 38 f25519^ ^ »«·一一一 m m«·., .明^日修(more).正第1 B Figure 2 1 1255193 Figure 3 (slunoo) 恶 □ 〇 〇 〇 〇 〇: Oxide α α: Base mica 〇 〇 [ / 1 (b) Q ._______λ—. (a) J □ □ □ □ □ α 40 50 60 2 θ (deg) 1255193 Page 4 Figure 5 Dry 氧化钛 氧化钛 氧化钛 氧化钛 氧化钛 氧化钛 一次 一次 一次 一次 一次 一次 一次 一次 一次 一次 一次 一次 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 1 4~0. 16 Secondary interference color 'Yellow 0. 1 6 ~ 〇.19 Red ~ Reddish purple 0. 1 9~0. 22 Blue 0 . 2 2 ~ 0 . 2 4 ! J Green 〇, 2 4~〇.2 5 Figure 6 1255193 1255193 Figure 7 1255193 Figure 8 -60 -40 -2Q 0 20 40 60 80 100