JPH07324015A - Make-up cosmetic material - Google Patents

Abstract

PURPOSE:To provide a make-up cosmetic material containing black ferromagnetic fine particles which are used in a black pigment liquid, capable of being effectively prevented from discoloration due to oxidation and, therefore, useful for an eye liner, a mascara, etc. CONSTITUTION:This make-up cosmetic material is obtained by (1) adding styrene, preferably a monomer mixture of styrene and divinyl benzene to an aqueous suspension of black ferromagnetic fine particles, stirring the resultant mixture, adsorbing the black ferromagnetic fine particles on a microemulsion of the monomer (mixture) and subsequently conducting a polymerization reaction or by (2) adding a monomer (mixture) dispersion of the black ferromagnetic fine particles to an aqueous solution containing a dissolved surfactant having 16 to 23 HLB value, emulsifying it with stirring, subsequently conducting a polymerization reaction so as to coat the surface of the black ferromagnetic fine particles with a (divinyl benzene-cocross-linked) polystyrene resin.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to makeup cosmetics. More specifically, it relates to makeup cosmetics in which discoloration due to oxidation is effectively prevented.

[0002]

2. Description of the Related Art A makeup cosmetic using a magnetic fluid as black ferromagnetic fine particles typified by black iron oxide is known (Japanese Patent Laid-Open No. 1-242513). In particular, 3,4-benzpyrene, which is a carcinogen, was discovered from a type of carbon that has been conventionally used for eyelines and the like, and water-based magnetic fluids have recently attracted attention as an alternative material. The one using this water-based magnetic fluid is black and has good elongation, and also has an effect of absorbing ultraviolet rays, and is therefore popular as a makeup cosmetic.

However, the black ferromagnetic fine particles (mainly magnetite fine particles) used in the magnetic fluid are easily oxidized in the air, and especially when filled in a pen type eyeliner tool, the batting is impregnated with the magnetic fluid. Since it is used in the state where it is used, the surface area at the gas-liquid interface becomes large, and there is a drawback that it easily undergoes air oxidation and discolors.

In order to avoid such drawbacks, it has been proposed to add a reducing substance as an antioxidant (Japanese Patent Laid-Open No. 3-7213), but in this case as well, the color may differ depending on the degree of oxidation depending on the storage temperature. It is unavoidable that there are variations in the changes over time. Further, if the reducing substance is added too much, there is a problem in that the initial color is not constant due to excessive reduction.

Further, as a method of suppressing the air oxidation by reducing the surface area at the gas-liquid interface, there is also a method of using a pen of a system in which a black pigment liquid containing a magnetic fluid is applied to the tip of a brush and applied. In this type of eyeliner and mascara, there is a problem in that the cost of the tool is high, and the black pigment liquid is not stored in a stable state, so there is a concern that it may leak to the outside.

[0006]

An object of the present invention is a makeup cosmetic using black ferromagnetic fine particles used as a black pigment liquid, which effectively prevents discoloration due to oxidation thereof. It is intended to provide products that are effectively used for applications such as eye liners and mascaras.

[0007]

The object of the present invention is as follows.
This is achieved by a makeup cosmetic using black ferromagnetic fine particles coated with a polystyrene resin, preferably a divinylbenzene co-crosslinked polystyrene resin.

Such makeup cosmetics can be produced, for example, by the following method. (1) Add a styrene monomer, preferably a mixed monomer of styrene and divinylbenzene, to an aqueous suspension of black ferromagnetic particles and stir to adsorb the black ferromagnetic particles to a microemulsion of the monomer (mixture). After the reaction, the polymerization reaction

The black ferromagnetic fine particles are generally produced by co-precipitation of ferrous and ferric salts, and a surfactant such as oleic acid is adsorbed on the fine ferromagnetic particles to suppress aggregation of the fine particles.
Form a stable aqueous suspension. To this aqueous suspension, polyvinyl alcohol was added and then the monomer
By adding (mixture) and stirring, a microemulsion of the monomer (mixture) is formed therein.

The black ferromagnetic fine particles are adsorbed and contained in this microemulsion, but the particle size of the finally used black ferromagnetic fine particles is about 0.1 μm when used for a pen application such as an eyeliner. Preferably, the particle size of such microparticles depends on the particle size of the microemulsion, and the particle size of the microemulsion depends on the concentration of polyvinyl alcohol added. For this purpose, polyvinyl alcohol is used in an amount such that it has a concentration of about 20 to 40 g, preferably about 30 to 40 g per liter of the aqueous suspension.

The styrene monomer is used in a weight ratio of about 0.5 to 2, preferably about 0.7 to 1.2 with respect to the ferromagnetic fine particles in order to maintain the properties of the ferromagnetic fine particles as a black pigment. If the amount of styrene added is less than this,
The coating is incomplete and the discoloration due to oxidation cannot be sufficiently prevented. On the other hand, if it is used in a ratio higher than this, the color tone as a black pigment cannot be maintained. When the divinylbenzene monomer is used in an arbitrary ratio together with the styrene monomer, co-crosslinking is performed there, and the polystyrene resin coating film can have sufficient strength.

After the monomer (mixture) is added to the aqueous suspension containing polyvinyl alcohol, stirring is carried out for about 1 to 2 days. In order to suppress the polymerization reaction at this stage, the temperature is lower than room temperature, preferably about It is controlled at a temperature of 5 to 15 ℃. At this time, in order to prevent volatilization of the styrene monomer, stirring is performed in a closed container. Then, a polymerization initiator, preferably a redox type polymerization initiator, is added, and a polymerization reaction is carried out at about 80 to 90 ° C. for about 3 to 5 hours.

An aqueous suspension of ferromagnetic fine particles coated with the obtained polystyrene resin, preferably divinylbenzene co-crosslinked polystyrene resin, was added with an aggregating solvent such as methanol to aggregate, filtered, and dried. After that, the pigment is dispersed in a solvent such as water or a hydrocarbon oil such as isoparaffin to form a black pigment liquid for makeup cosmetics.

(2) A monomer (mixture) dispersion of black ferromagnetic particles is added to an aqueous solution in which a surfactant having an HLB value of 16 to 23 is dissolved, and the mixture is stirred and emulsified, followed by a polymerization reaction. Method

The black ferromagnetic fine particles produced by the coprecipitation method or the like are adsorbed with a surfactant such as oleic acid, and then added with an acid to coagulate, washed with water and dried, and then coated with a surfactant. The particles are black ferromagnetic particles.

A monomer (mixture) is added to this and stirred to disperse the black ferromagnetic fine particles in the monomer (mixture). The styrene monomer is used in a weight ratio of about 0.7 to 2, preferably about 0.8 to 1.2 with respect to the ferromagnetic fine particles in order to maintain the properties of the ferromagnetic fine particles as a black pigment. The dispersion may be performed by ordinary stirring, but it is recommended to use it in combination with ultrasonic irradiation.

Monomer of the obtained black ferromagnetic fine particles
(Mixture) The dispersion is a surfactant having an HLB of 16 to 23, such as sodium oleate (HLB18.0) and potassium oleate.
(20.0), polyoxyethylene stearate
(Same 16.0 to 18.8), sodium laurate (same 20.9) and the like are added to an aqueous solution to emulsify. The HLB value of the surfactant is limited to such a range because the particle size of the finally used black ferromagnetic fine particles is about 0.1 μm or less. These surfactants are about 10 to 30 per liter of water.
It is used in a ratio of g, preferably about 15 to 20 g.

The subsequent polymerization reaction and separation method are as follows.
The procedure is the same as in the case of (1) above.

[0019]

[Effects of the Invention] Discoloration due to oxidation is effectively prevented by coating the surface of black ferromagnetic fine particles as a black pigment liquid used as makeup cosmetics with polystyrene resin, preferably divinylbenzene co-crosslinked polystyrene resin. can do. Therefore, it can be effectively used especially for a pen application such as an eyeliner which is used in a state where the surface area at the gas-liquid interface is large.

[0020]

EXAMPLES The present invention will now be described with reference to examples.

Example 1 185 g of FeCl ₂ .nH ₂ O and 500 g of FeCl ₃ .6H ₂ O were dissolved in water to a total amount of 1.5 L, and 1.5 L of 6N ammonia water was added.
Was dripped to generate magnetite fine particles having a particle size of about 5 to 20 nm. This was heated to 90 ° C., 1 L of a 7% sodium oleate aqueous solution was added, and heating was continued for 30 minutes. this
After cooling to 15 ° C or below, 12% polyvinyl alcohol (# 50
0) 2 L of the aqueous solution was added, then a mixed monomer of 270 ml of styrene and 30 ml of divinylbenzene (60%) was added, and stirring was continued for 24 hours while maintaining the temperature at 15 ° C or lower. Then, 2.5 g of sodium persulfate and 1.0 g of sodium hydrogen sulfite are added, and the mixture is heated at 90 ° C. for 3 hours. After cooling, 7 L of methanol was added, and the mixture was stirred, filtered, and dried to obtain about 520 g of divinylbenzene co-crosslinked polystyrene resin-coated magnetite fine particles.

Example 2 In Example 1, the same amount of 7% sodium laurate aqueous solution was used in place of the 7% sodium oleate aqueous solution.
520 g of divinylbenzene co-crosslinked polystyrene resin coated magnetite particles were obtained.

Comparative Example 1 In Example 1, at the time of heating after addition of the aqueous sodium oleate solution and cooling to 15 ° C. or lower, the mixture was neutralized to pH 6 with 1N hydrochloric acid, filtered and dried to obtain oleic acid. About 270 g of coated magnetite fine particles were obtained.

Example 3, Comparative Example 2 In Example 1, after the aqueous solution of sodium oleate was added, the mixture was heated and then cooled to 30 ° C. or lower, and 1N hydrochloric acid was added thereto.
The magnetite fine particles were aggregated by dropping until the pH reached 6, washed with water, filtered, and dried. About 270 g of the obtained oleic acid-coated magnetite fine particles (Comparative Example 2) was mixed with styrene (270 m).
A mixed monomer of 1 and 30 ml of divinylbenzene (60%) was added, and the mixture was stirred under ice cooling for 2 hours under ultrasonic irradiation to disperse. This magnetite fine particle dispersed mixed monomer,
The mixture was added to 6 L of a 2% sodium oleate aqueous solution and stirred to emulsify. Sodium persulfate (2.5 g) and sodium hydrogen sulfite (1.0 g) are added thereto, and the mixture is heated at 90 ° C for 3 hours.
After cooling this, 7 L of methanol was added, and the mixture was stirred, filtered, and dried to give about 520 g of divinylbenzene co-crosslinked polystyrene resin-coated magnetite fine particles (Example 3).
Got

28.5 g of pure water and 1.5 g of sodium oleate were added to 10 g of each of the divinylbenzene co-crosslinked polystyrene resin-coated magnetite fine particles obtained in each of the above examples or the oleic acid-coated magnetite fine particles obtained in each of the comparative examples. Add and stir with a homogenizer (10000 rpm, 2
Time) and dispersed to prepare a black pigment liquid.

After filling these pen-type eyeliner tools with these black pigment liquids, they were laid for 4 weeks in a constant temperature bath at 52 ° C. and then applied on the paper surface. Each of the comparative examples turned brown. On the other hand, in each of the examples, no change from the initial color was observed, that is, the effect of preventing discoloration was observed, and it was confirmed that the examples have excellent properties as a pen type eyeliner.

[Procedure amendment]

[Submission date] November 30, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0008

[Correction method] Change

[Correction content]

Used in such makeup cosmetics
The resin-coated black ferromagnetic fine particles can be produced, for example, by the following method. (1) Add a styrene monomer, preferably a mixed monomer of styrene and divinylbenzene, to an aqueous suspension of black ferromagnetic particles and stir to adsorb the black ferromagnetic particles to a microemulsion of the monomer (mixture). After the reaction, the polymerization reaction

Claims (2)

[Claims] 1. A makeup cosmetic using black ferromagnetic fine particles coated with polystyrene resin. 2. A makeup cosmetic using black ferromagnetic fine particles coated with divinylbenzene co-crosslinked polystyrene resin.