JP2020059805A - Mixed photochromic pigment and production method of the same - Google Patents

Abstract

To provide a photochromic pigment giving a paler color while maintaining a concealing property and a photochromic property equivalent to those of a colored photochromic pigment.SOLUTION: A mixed photochromic pigment of the present invention comprises a white photochromic pigment and a colored photochromic pigment. The white photochromic pigment satisfies the following conditions (a-1) and (a-2): (a-1) the white photochromic pigment gives a lightness Lof 80 or more, |a| of 5 or less, and |b| of 10 or less; and (a-2) a color difference ΔEbefore and after irradiation with UV rays for 1 minute is 1 or more. The colored photochromic pigment satisfies the following conditions (b-1) and (b-2): (b-1) a colored composition prepared from the colored photochromic pigment shows |a| of more than 5 or |b| of more than 10 in the Labcolor system in accordance with JIS Z 8781; and (b-2) a color difference ΔEbefore and after irradiation with UV rays for 1 minute is 1 or more.SELECTED DRAWING: None

Description

  The present invention relates to a mixed photochromic pigment and a method for producing the same.

  The photochromic pigment is a pigment having the property of reversibly changing the color upon irradiation with light (photochromic property). Such photochromic pigments are widely used as materials for cosmetics, and various types of photochromic pigments have been proposed.

  Patent Document 1 discloses an ultraviolet shielding agent comprising a photochromic powder containing anatase-type titanium oxide and iron oxide and having an average particle size of 0.3 to 1 μm.

Patent Document 2 discloses a photochromic ultraviolet-shielding powder having a specific surface area of 25 m ² / g or more and a powder having a given photochromic property as a main component.

JP, 2014-169234, A JP-A-4-364117

  It is known that a photochromic pigment containing titanium oxide and iron oxide, such as the photochromic powder described in Patent Document 1, exhibits a pale red color due to the color inherent to iron oxide.

  When a lighter color is produced using such a colored photochromic pigment, it is considered that the content of the pigment and / or the content of iron oxide is reduced. According to this, the hiding power and the photochromic function of the photochromic pigment are considered. Will decrease. It is also possible to mix a white pigment to make a light color, but this has a problem that the photochromic function is deteriorated.

  In addition, it is considered that the photochromic ultraviolet-shielding powder of Patent Document 2 cannot obtain sufficient hiding power due to the small primary particle diameter accompanying the large specific surface area.

  Therefore, there is a need to provide a photochromic pigment having a lighter color while maintaining the hiding properties and photochromic properties equivalent to those of the colored photochromic pigment.

As a result of intensive studies, the present inventors have found that the above-mentioned problems can be solved by the following means, and have completed the present invention. That is, the present invention is as follows:
<< Aspect 1 >> A white photochromic pigment and a colored photochromic pigment are contained,
(A) The white photochromic pigment is mixed with 0.3 parts by weight of the white photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a white composition. Was coated on a transparent film at a thickness of 18 g / m ² , and after being stored in the dark for 24 hours, the following conditions (a-1) and (a-2) were satisfied:
(A-1) In the L ^* a ^* b ^* color system of the white composition according to JIS Z 8781, the lightness L ^* is 80 or more, | a ^* | is 5 or less, and | b ^* | Is 10 or less, and (a-2) the color difference ΔE ^* before and after irradiating ultraviolet rays having a wavelength of 302 nm for 1 minute by using a 6 W ultraviolet lamp is 1 or more,
(B) The colored photochromic pigment is mixed with 0.3 parts by weight of the colored photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a colored composition. Was coated on a transparent film at a thickness of 18 g / m ² , and after being stored in the dark for 24 hours, the following conditions (b-1) and (b-2) were satisfied:
(B-1) | a ^* | is greater than 5 or | b ^* | is greater than 10 in the L ^* a ^* b ^* colorimetric system of JIS Z 8781 of the colored composition,
(B-2) The color difference ΔE ^* before and after the irradiation of ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp is 1 or more,
Mixed photochromic pigment.
<< Aspect 2 >> The white photochromic pigment contains 99.0 to 99.9% by mass of TiO ₂ and 0.1 to 1.0% by mass of Fe ₂ O based on the total mass of the white photochromic pigment. _3. The mixed photochromic pigment according to aspect 1, containing ₃ .
<< Aspect 3 >> The mixed photochromic pigment according to aspect 1 or 2, wherein a primary particle diameter of the white photochromic pigment measured by a field emission scanning electron microscope is 10 to 100 nm.
<< Aspect 4 >> The mixed photochromic pigment according to any one of Aspects 1 to 3, wherein the white photochromic pigment has an average particle diameter of 1 to 20 µm measured by a laser diffraction / scattering method.
<< Aspect 5 >> The mixed photochromic pigment according to any one of Aspects 1 to 4, which has a specific surface area according to JIS Z 8830 of 1 to ²⁰ m ² / g.
<< Aspect 6 >> Including a white photochromic pigment and a colored photochromic pigment to prepare a mixed photochromic pigment,
(A) 0.3 parts by weight of the white photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component are mixed to prepare a white composition, which is formed on a transparent film to have a thickness. The following conditions (a-1) and (a-2) were satisfied in a state after being coated at 18 g / m ² and stored in a dark place for 24 hours:
(A-1) In the L ^* a ^* b ^* color system of the white composition according to JIS Z 8781, the lightness L ^* is 80 or more, | a ^* | is 5 or less, and | b ^* | Is 10 or less, and (a-2) the color difference ΔE ^* before and after irradiating ultraviolet rays having a wavelength of 302 nm for 1 minute by using a 6 W ultraviolet lamp is 1 or more,
(B) The colored photochromic pigment is mixed with 0.3 parts by weight of the colored photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a colored composition. Was coated on a transparent film at a thickness of 18 g / m ² , and after being stored in the dark for 24 hours, the following conditions (b-1) and (b-2) were satisfied:
(B-1) | a ^* | is greater than 5 or | b ^* | is greater than 10 in the L ^* a ^* b ^* color system according to JIS Z 8781 of the colored composition,
(B-1) The color difference ΔE ^* before and after the irradiation of ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp is 1 or more,
Method for producing mixed photochromic pigment.

  According to the present invention, it is possible to provide a photochromic pigment having a lighter color while maintaining the hiding property and the photochromic property equivalent to those of the colored photochromic pigment.

<Mixed photochromic pigment>
The mixed photochromic pigment of the present invention contains a white photochromic pigment, and a colored photochromic pigment,
(A) The white photochromic pigment is mixed with 0.3 parts by weight of the white photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a white composition, which is transparent. After coating the film at a thickness of 18 g / m ² and storing it in the dark for 24 hours, the following conditions (a-1) and (a-2) were satisfied:
(A-1) In the L ^* a ^* b ^* color system of JIS Z 8781 of the white composition, the lightness L ^* is 80 or more, | a ^* | is 5 or less, and | b ^*. | Is 10 or less, and (a-2) the color difference ΔE ^* before and after irradiation with ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp is 1 or more,
(B) The colored photochromic pigment is mixed with 0.3 parts by weight of the colored photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a colored composition, which is transparent. The following conditions (b-1) and (b-2) are satisfied after coating the film at a thickness of 18 g / m ² and storing it in the dark for 24 hours:
(B-1) | a ^* | in the L ^* a ^* b ^* color system according to JIS Z 8781 of the colored composition is more than 5, or | b ^* | is more than 10,
(B-2) The color difference ΔE ^* before and after irradiation with ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp is 1 or more.

  Below, each component of this invention is demonstrated.

<White photochromic pigment>
The white photochromic pigment is a pigment that is white and has photochromic properties.
More specifically, “white” means that a photochromic pigment 0.3 parts by mass, a colorless transparent resin binder 0.25 parts by mass, and a solvent component 1.75 parts by mass are mixed to prepare a composition, After being coated on a transparent film at a thickness of 18 g / m ² and stored in a dark place for 24 hours, the composition has a lightness in the L ^* a ^* b ^* color system according to JIS Z 8781. It means that L ^* is 80 or more, | a ^* | is 5 or less, and | b ^* | is 10 or less.

In the present specification, | a ^* | and | b ^* | mean the absolute values of a ^* and b ^* , respectively.

  In this case, a polyester-vinyl chloride-vinyl acetate copolymer can be used as the colorless transparent resin binder. The mass of the colorless resin binder means the mass of solid content.

  As the solvent component, a mixed solvent obtained by mixing methyl ethyl ketone and toluene in equal mass in addition to the solvent component contained in the colorless transparent resin binder as a solvent component can be used.

The lightness L ^* can be, for example, 80 or more, 81 or more, 82 or more, or 83 or more, and can be 100 or less, 95 or less, 93 or less, 90 or less, or 88 or less.

The above | a ^* | can be 5 or less, 4 or less, 3 or less, 2 or less, or 1 or less, and can be 0 or more or more than 0.

The above | b ^* | can be 10 or less, or 9 or less, and is 0 or more, or more than 0, 1 or more, 2 or more, 3 or more, 4 or more, 5 or more, 6 or more, 7 or more, or It can be 8 or more.

Further, in the present invention, “photochromic” means that, in the above-mentioned state, the color difference ΔE ^* before and after the irradiation of ultraviolet rays having a wavelength of 302 nm with a 6 W ultraviolet lamp for 1 minute is 1 or more. Is. This color difference ΔE ^* can be, for example, 1 or more, 2 or more, 3 or more, 4 or more, 5 or more, or 6 or more, and is 30 or less, 25 or less, 20 or less, 15 or less, 10 or less, or 7 or less. Can be

The white photochromic pigment contains 99.0 to 99.9% by mass of TiO ₂ and 0.1 to 1.0% by mass of Fe ₂ O _{3 based} on the total mass of the white photochromic pigment. Good.

In this case, the content of TiO ₂ is 99.0 mass% or more, more than 99.0 mass%, 99.1 mass% or more, 99.2 mass% or more, 99.2 mass% or more, based on the mass of the entire photochromic pigment. It may be 3% by mass or more, or 99.4% by mass or more, and may be 99.9% by mass or less, 99.8% by mass or less, 99.7% by mass or less, or 99.6% by mass or less. .

Further, in this case, the content of Fe ₂ O ₃ is 0.1% by mass or more, 0.2% by mass or more, 0.3% by mass or more, or 0.4% by mass based on the mass of the entire photochromic pigment. % Or more, and 1.0 mass% or less, less than 1.0 mass%, 0.9 mass% or less, 0.8 mass% or less, 0.7 mass% or less, or 0.6 mass% or less. May be

  The average particle size of the white photochromic pigment measured by the laser diffraction / scattering method is 1 μm or more, 2 μm or more, 3 μm or more, 4 μm or more, 5 μm or more, 6 μm or more, 7 μm or more, 8 μm or more, 9 μm or more, or 10 μm or more. 20 μm or less, 17 μm or less, 15 μm or less, 14 μm or less, 13 μm or less, 12 μm or less, or 11 μm or less. In the present specification, the average particle diameter means the median diameter (D50) calculated on the volume basis in the laser diffraction / scattering method.

  The average primary particle size of the white photochromic pigment measured by a field emission scanning electron microscope may be 10 nm or more, 20 nm or more, 30 nm or more, 40 nm or more, 50 nm or more, or 55 nm or more, and 100 nm or less, 90 nm or less, It may be 80 nm or less, 70 nm or less, or 60 nm or less.

The specific surface area of the photochromic pigment according to JIS Z 8830 is 1 m ² / g or more, 2 m ² / g or more, 3 m ² / g or more, 4 m ² / g or more, 5 m ² / g or more, 6 m ² / g or more, Alternatively, it may be 7 m ² / g or more and 20 m ² / g or less, 17 m ² / g or less, 15 m ² / g or less, 12 m ² / g or less, 11 m ² / g or less, 10 m ² / g or less, 9 m ² / G or less, or 8 m ² / g or less.

In particular, the photochromic pigment having the above-mentioned average particle diameter, and the above-mentioned average primary particle diameter and / or the above-mentioned specific surface area, and containing TiO ₂ and Fe ₂ O ₃ at the above-mentioned content rate is white. It can be photochromic. Without wishing to be bound by theory, this is due to the fact that particles of pigment having a small average primary particle size form secondary particles that are reasonably agglomerated to a relatively large average particle size. It is considered that iron oxide molecules are not exposed on the surface of the secondary particles, and as a result, the white color peculiar to titanium dioxide is exhibited.

<Colored photochromic pigment>
The colored photochromic pigment is a pigment that is colored and has photochromic properties. As such a colored photochromic pigment, known pigments can be used, and for example, PHOTOLITE PK-S and PHOTOLITE LY-S commercially available from Yamaguchi Mica Co., Ltd. can be used.

More specifically, "colored" means that a composition is prepared by mixing 0.3 parts by mass of a photochromic pigment, 0.25 parts by mass of a colorless transparent resin binder, and 1.75 parts by mass of a solvent component to prepare a composition. After coating on a transparent film at a thickness of 18 g / m ² and storing it in the dark for 24 hours, | a in the L ^* a ^* b ^* color system of this composition according to JIS Z 8781 ^* | Means greater than 5 or | b ^* | means greater than 10.

The lightness L ^* in the L ^* a ^* b ^* color system is, for example, 0 or more, 10 or more, 20 or more, 30 or more, 40 or more, 50 or more, 60 or more, 70 or more, 75 or more, 80 or more, 81 or more. , 82 or more, or 83 or more, and 100 or less, 95 or less, 93 or less, 90 or less, or 88 or less.

The above | a ^* | can be more than 5, or 6 or more, and can be 30 or less, 25 or less, 20 or less, 18 or less, or 15 or less.

The above | b ^* | can be more than 10, or 12 or more, and can be 30 or less, 25 or less, 20 or less, 18 or less, or 15 or less.

The colored photochromic pigment may have a color difference ΔE ^* of 1 or more before and after irradiation with ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp. This color difference ΔE ^* can be, for example, 1 or more, 2 or more, 3 or more, 4 or more, 5 or more, or 6 or more, and is 30 or less, 25 or less, 20 or less, 15 or less, 10 or less, or 7 or less. Can be

<< Method for producing mixed photochromic pigment >>
The method of the present invention for producing a photochromic pigment can include mixing a white photochromic pigment and a colored photochromic pigment to make a mixed photochromic pigment.

<< Method for producing white photochromic pigment >>
The method of the present invention for producing a photochromic pigment comprises
Mixing a titania sol aqueous solution and an iron nitrate aqueous solution to prepare a composite hydrate,
To the composite hydrate, an alkali is added to prepare a pigment precursor, and the pigment precursor is dried, and the obtained solid content is crushed in an organic solvent and calcined to obtain a photochromic pigment. Including getting.

  By the above-mentioned method, the fine average primary particle diameter of the photochromic pigment, more specifically, the average primary particle diameter of 10 to 100 nm, and the large average particle diameter, more specifically, the average particle diameter of 1 to 20 μm. Can bring

  The method of the present invention preferably includes drying the pigment precursor to remove the organic solvent before firing, from the viewpoint of suppressing the thermal energy required for firing.

<Preparation of complex hydrate>
The composite hydrate is prepared by mixing the titania sol aqueous solution and the iron nitrate aqueous solution.

<Preparation of pigment precursor>
The pigment precursor is produced by adding an alkali to the complex hydrate. It is preferable to add the alkali in the form of an aqueous alkali solution from the viewpoint of uniformity.

  The alkali means an alkali metal salt or alkaline earth metal salt that exhibits basicity when dissolved in water. As the alkali, for example, hydroxides such as sodium hydroxide, potassium hydroxide, calcium hydroxide and barium hydroxide, carbonates such as calcium carbonate and sodium carbonate and the like can be used.

<Crush>
The pulverization is performed by drying the pigment precursor and pulverizing the obtained solid content in an organic solvent until the average particle size becomes 1 to 20 μm.

  As the organic solvent, for example, ethyl acetate, methyl ethyl ketone, toluene, isopropyl alcohol, ethanol, methanol or the like can be used alone or in combination.

  As a specific mode of pulverization, for example, pulverization with a ball mill such that the average particle diameter of the pigment precursor is 1 to 20 μm in a state where the pigment precursor is dispersed in an organic solvent can be mentioned. As the balls used in the ball mill, for example, balls made of zirconia ceramics having a diameter of 10 mm can be used.

<Firing of pigment precursor>
The firing can be performed, for example, at 800 ° C or higher, 850 ° C or higher, 900 ° C or higher, 910 ° C or higher, 920 ° C or higher, or 930 ° C or higher, and 1000 ° C or lower, 990 ° C or lower, 980 ° C or lower, 970 ° C or lower. , 960 ° C. or lower, or 950 ° C. or lower.

  The present invention will be specifically described with reference to Examples and Comparative Examples, but the present invention is not limited thereto.

<< Preparation and Preparation of Photochromic Pigment >>
<White photochromic pigment>
125 g of water was added to 200 g of acidic titania sol (titanium oxide content of 65 g), heated to 80 ° C. with stirring, and 1.5 g of iron nitrate dissolved in 100 g of water was added thereto.

  To this, 11.5 g of sodium carbonate dissolved in 700 g of water was gradually added dropwise and stirred for 30 minutes. The pH at that time was 6.5. Next, the precipitated solid was repeatedly washed with water to remove the water-soluble component, and a pigment precursor was obtained. Next, this was dried at 140 ° C. to remove water, and 100 g of the obtained solid content and 100 g of ethanol were mixed in a 500 ml polypropylene cylindrical container, and a zirconia ceramic ball having a diameter of 10 mm was charged therein. It was crushed and sized by a ball mill until the average particle size became 10 μm. Next, this was dried at 100 ° C. to remove ethanol, and this was baked at 940 ° C. for 3 hours to obtain a photochromic pigment A.

<Colored photochromic pigment>
PHOTOLITE PK-S (Yamaguchi Mica Co., Ltd.) was used as the colored photochromic pigment.

<Measurement of physical properties>
(Composition analysis)
The composition analysis of each photochromic pigment was performed using ZSX Primus III + (Rigaku Corporation). Specifically, 5 g of each photochromic pigment was sampled, each was filled in a dedicated resin holder, and this was covered with a film to obtain a pellet for composition analysis. Composition analysis was performed using the pellets for composition analysis.

(Measurement of average particle size)
Each photochromic pigment was put in a 0.2% sodium hexametaphosphate solution and dispersed by ultrasonic waves (300 w) for 3 minutes to obtain a dispersion liquid. The average particle size of this dispersion was measured using MICROTRAC MT3000 (manufactured by Microtrac Bell) at a refractive index of 2.40.

(Measurement of average primary particle size)
Each photochromic pigment was placed on the carbon paste, Pt sputtered (Hitachi E-1045 type ion sputter), and treated with ZoneSEM (Hitachi High Technologies).

  Next, the average primary particle diameter of each treated photochromic pigment was measured using FE-SEM (manufactured by Hitachi High-Technologies Corporation: model number SU8020) under conditions of an acceleration voltage of 1 Kev and a magnification of 200 k times.

(Measurement of specific surface area)
The specific surface area of the photochromic pigment A was measured using HM model-1208 (manufactured by Mountech Co., Ltd.) by the BET flow method according to JIS Z8830.

<< Evaluation >>
<Measurement of L ^* a ^* b ^* value>
0.3 parts by mass of each photochromic pigment, 1 part by mass of polyester-vinyl chloride-vinyl acetate copolymer (solid content 25%) as a colorless transparent resin binder, and methyl ethyl ketone and toluene as solvent components are mixed in equal amounts. 1 part by mass of the mixed solvent was mixed to prepare an ink composition. The parts by mass of the photochromic pigment, the colorless transparent resin binder, and the solvent component in the ink composition were 0.3 parts by mass, 0.25 parts by mass, and 1.75 parts by mass, respectively.

Each of the prepared ink compositions was applied onto a polyethylene terephthalate film (125 μm) using a wire bar # 34 (film thickness: about 18 g / m ² ) and stored in the dark for 24 hours. After the storage, white backing was performed and the L ^* a ^* b ^* value of the coating film was measured by a colorimeter (SpectroEye manufactured by x-rite).

Then, the coating film was irradiated with ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6W ultraviolet lamp (Handheld UV Lamp, 6W, UVM-57, analytik jena), and then the L ^* a ^* b ^* value of the coating film was measured. It was measured. Using the obtained difference in L ^* a ^* b ^* value, the color difference ΔE ^* before and after the irradiation with the ultraviolet ray for 1 minute was calculated.

  Table 1 shows the configurations and evaluation results of the examples and comparative examples.

From Table 1, an ink containing a white photochromic pigment having an average particle size in the range of 1 to 20 μm and an average primary particle size in the range of 10 to 100 nm has a lightness L ^* before irradiation with ultraviolet rays. , 80 or more, | a ^* | is 5 or less, and | b ^* | is 10 or less, so that it is recognized as white. On the other hand, the ink containing the colored photochromic pigment was confirmed to be colored because | a ^* | was more than 5 and | b ^* | was more than 10 before irradiation with ultraviolet rays. To be The produced ink containing the white photochromic pigment had a larger color difference ΔE ^* than the ink containing the colored photochromic pigment, and thus had better photochromic properties than the ink containing the colored photochromic pigment.

<< Evaluation of mixed photochromic pigments >>
In addition to white and colored photochromic pigments, titanium oxide (Taipaque CR-50, Ishihara Sangyo Co., Ltd.) as a white pigment was prepared.

<Reference example>
0.2 parts by weight of a colored photochromic pigment, 1 part by weight of a polyester-vinyl chloride-vinyl acetate copolymer (solid content 25%) as a colorless transparent resin binder, and methyl ethyl ketone and toluene as solvent components are mixed in equal amounts. An ink composition was prepared by mixing with 1 part by mass of the mixed solvent. The parts by mass of the photochromic pigment, the colorless transparent resin binder, and the solvent component in the ink composition were 0.2 parts by mass, 0.25 parts by mass, and 1.75 parts by mass, respectively.

Each of the prepared ink compositions was applied onto a polyethylene terephthalate film (125 μm) using a wire bar # 34 (film thickness: about 18 g / m ² ) and stored in the dark for 24 hours. After the storage, white backing and black backing were performed, and the L ^* a ^* b ^* value of the coating film was measured with a colorimeter (SpectroEye manufactured by x-rite).

Then, the coating film was irradiated with ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6W ultraviolet lamp (Handheld UV Lamp, 6W, UVM-57, analytik jena), and then the L ^* a ^* b ^* value of the coating film was measured. It was measured. Using the obtained difference in L ^* a ^* b ^* value, the color difference ΔE ^* before and after the irradiation with the ultraviolet ray for 1 minute was calculated.

<Comparative Examples 1 and 2 and Examples>
Inks containing the mixed photochromic pigments of Comparative Examples 1 and 2 and Examples were produced in the same manner as in Reference Example, except that the mass parts of the respective pigments were changed as shown in Table 1. The same evaluations as those of the reference example were also performed for these.

  Table 2 shows the configurations and evaluation results of Examples, Comparative Examples and Reference Examples.

From the L ^* a ^* b ^* values in Table 2, it is understood that the inks containing the mixed photochromic pigments of Examples and Comparative Examples 1 and 2 are lighter in color than the inks containing the pigment of the reference example. I can do it.

Further, comparing Comparative Example 1 with Reference Example, Comparative Example 1 in which the content of the colored photochromic pigment was simply reduced had a lighter color, but the color difference ΔE ^* was significantly reduced. From this, it can be understood that the photochromic property is significantly reduced. Further, it can be understood that when the content of the colored photochromic pigment is simply reduced, the lightness L ^* is significantly reduced when evaluated on a black mount, and thus the hiding property is also reduced. .

Further, comparing Comparative Example 2 with Reference Example, in Comparative Example 2 in which a part of the colored photochromic pigment was replaced with a white pigment, although the lightness L ^* was increased when evaluated on a black mount, Since the color difference ΔE ^* is significantly decreased, it can be understood that the photochromic property is still significantly decreased although the hiding property is better than that of the reference example.

  On the other hand, when comparing the example and the reference example, the ink containing the mixed photochromic pigment of the example in which the white photochromic pigment and the colored photochromic pigment are combined maintains good hiding property and good photochromic property. You can understand what is done.

Claims (6)

Contains a white photochromic pigment and a colored photochromic pigment,
(A) The white photochromic pigment is mixed with 0.3 parts by weight of the white photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a white composition. Was coated on a transparent film at a thickness of 18 g / m ² , and after being stored in the dark for 24 hours, the following conditions (a-1) and (a-2) were satisfied:
(A-1) In the L ^* a ^* b ^* color system of the white composition according to JIS Z 8781, the lightness L ^* is 80 or more, | a ^* | is 5 or less, and | b ^* | Is 10 or less, and (a-2) the color difference ΔE ^* before and after irradiating ultraviolet rays having a wavelength of 302 nm for 1 minute by using a 6 W ultraviolet lamp is 1 or more,
(B) The colored photochromic pigment is mixed with 0.3 parts by weight of the colored photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a colored composition. Was coated on a transparent film at a thickness of 18 g / m ² , and after being stored in the dark for 24 hours, the following conditions (b-1) and (b-2) were satisfied:
(B-1) | a ^* | is greater than 5 or | b ^* | is greater than 10 in the L ^* a ^* b ^* colorimetric system of JIS Z 8781 of the colored composition,
(B-2) The color difference ΔE ^* before and after the irradiation of ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp is 1 or more,
Mixed photochromic pigment. The white photochromic pigment contains 99.0 to 99.9 mass% TiO ₂ and 0.1 to 1.0 mass% Fe ₂ O _{3 based} on the total mass of the white photochromic pigment. The mixed photochromic pigment according to claim 1, wherein   The mixed photochromic pigment according to claim 1 or 2, wherein a primary particle diameter of the white photochromic pigment measured by a field emission scanning electron microscope is 10 to 100 nm.   The mixed photochromic pigment according to any one of claims 1 to 3, wherein the white photochromic pigment has an average particle diameter of 1 to 20 µm measured by a laser diffraction / scattering method. The mixed photochromic pigment according to any one of claims 1 to 4, which has a specific surface area according to JIS Z 8830 of 1 to 20 m ² / g. Including mixing a white photochromic pigment and a colored photochromic pigment to produce a mixed photochromic pigment,
(A) 0.3 parts by weight of the white photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component are mixed to prepare a white composition, which is formed on a transparent film to have a thickness. The following conditions (a-1) and (a-2) were satisfied in a state after being coated at 18 g / m ² and stored in a dark place for 24 hours:
(A-1) In the L ^* a ^* b ^* color system of the white composition according to JIS Z 8781, the lightness L ^* is 80 or more, | a ^* | is 5 or less, and | b ^* | Is 10 or less, and (a-2) the color difference ΔE ^* before and after irradiating ultraviolet rays having a wavelength of 302 nm for 1 minute by using a 6 W ultraviolet lamp is 1 or more,
(B) The colored photochromic pigment is mixed with 0.3 parts by weight of the colored photochromic pigment, 0.25 parts by weight of a colorless transparent resin binder, and 1.75 parts by weight of a solvent component to prepare a colored composition. Was coated on a transparent film at a thickness of 18 g / m ² , and after being stored in the dark for 24 hours, the following conditions (b-1) and (b-2) were satisfied:
(B-1) | a ^* | is greater than 5 or | b ^* | is greater than 10 in the L ^* a ^* b ^* colorimetric system of JIS Z 8781 of the colored composition,
(B-1) The color difference ΔE ^* before and after the irradiation of ultraviolet rays having a wavelength of 302 nm for 1 minute using a 6 W ultraviolet lamp is 1 or more,
Method for producing mixed photochromic pigment.