JP2018123105A - Solid powder cosmetics - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain solid powder cosmetics of excellent quality that have a special soft feeling, avoid an unnatural powder finish, and have high impact resistance.SOLUTION: The solid powder cosmetics contain (A) a powder surface-treated with dimethiconol and amino silane, (B) flexible composite powder, and (C) an oil solution.SELECTED DRAWING: None

Description

  The present invention relates to a solid powder cosmetic.

Solid powder cosmetics are mixed with powder, oil, and if necessary, a surfactant and mixed uniformly, processed with a pulverizer and compression molded into a container such as a metal pan, or compressed. It is the one put in a container such as a gold plate after molding. The solid powder cosmetic is a makeup cosmetic such as a foundation, eye shadow, or teak. In prescriptions of solid powder cosmetics, the proportion of powder is the largest and has a great influence on the feeling of use. The selection of the oil is important because it plays a role in binding the powder to each other and greatly affects the adhesion to the skin and other feelings of use.
Since the solid powder cosmetic is compression-molded, the powder can be carried without scattering. In the present age when it has become common sense to carry a set of cosmetics in a bag as women enter the society, solid powder cosmetics are the most accepted form for consumers. However, if you carry it in a bag, vibrations when walking will be transmitted and it will become an impact, or sometimes the back will drop and the solid powder cosmetic such as foundation will crack or crack There are things to do. A broken foundation often breaks down after use and is not useful. For this reason, the quality which has impact resistance must be ensured at the minimum.
On the other hand, foundations include powder-type powder cosmetics. This is a dosage form that is supposed to be used indoors mainly on a dressing table. Therefore, in the prescription design of the powder cosmetic, it is not necessary to consider impact resistance, and a design that emphasizes the feeling of use is sufficient.

As a function required for solid powder cosmetics such as foundations, it is natural that a cosmetic effect can be obtained, but more and more emphasis has been placed on comfort. Above all, the “soft” feel (use feeling) is a high-level item of design quality because it leads to gentleness to the skin. In order to obtain a "soft" feel, elastic powder is often blended. Since the elastic powder has elasticity in itself, the more softly it is blended in the prescription, the more "soft" feel can be obtained.
In powder-type powder cosmetics, since they are not compression-molded, the powder and the powder are scattered, and it can be said that a "soft" feel has been achieved in the first place. Alternatively, when it is desired to give a more “soft” feel, a part of the powder may be replaced with an elastic powder, and the formulation can be designed relatively easily. However, in the case of solid powder cosmetics, there is a problem that impact resistance is reduced when a formulation containing a large amount of elastic powder is used. For this reason, in a solid powder cosmetic, in a formulation containing a large amount of elastic powder, the powder can be bound by blending a large amount of oil or a solid or semi-solid oil such as wax or petrolatum. It was necessary to increase. As described above, since the oil agent greatly affects the adhesion to the skin and other feelings of use, the above-mentioned means in the formulation containing a large amount of elastic powder must sacrifice the feeling of use to some extent, and the elastic powder is preferable. There is a problem that the feeling of use cannot be fully exhibited. The impact resistance may be increased by adjusting the type and blending amount of the powder without changing the oil agent. However, not only the “soft” feel is reduced, but also a new problem arises, such as a caking phenomenon that causes the powder to agglomerate and harden and the “pull” of the puff to worsen. If too much emphasis is placed on the “soft” feel, excessive powder will be removed from the puff, resulting in the problem of powder floating during application. As described above, in the solid powder cosmetic, it was very difficult to realize all of the above, impact resistance, “soft” feel, and finish without powder floating.

Under such circumstances, various technical proposals have been made for solving problems of usability and impact resistance.
For example, a solid powder cosmetic containing an amino-modified silicone-treated powder and a metal soap-treated powder can provide a soft feel and a good moldability like a loose powder cosmetic. (Patent Document 1).
Further, 0.1 to 3% by mass of silica having a specific particle diameter, 0.1 to 20% by mass of silicone elastomer spherical powder, and a semi-solid oil having a hardness at 25 ° C. of 0.1 to 10N as the total amount of oil. Solid powder cosmetic containing 0.1 to 50% by mass (Patent Document 2), elastic powder 0.5 to 7% by mass, liquid oil 2 to 15% by mass, polyethylene terephthalate finely pulverized powder Solid powder containing 20 to 75% by mass (Patent Document 3), specific dextrin fatty acid ester 0.5 to 5% by mass, spherical silicone elastic powder, and solid containing boron nitride Powder powder cosmetic (Patent Document 4), 12-30% by mass of synthetic fluorine phlogopite, 5-15% by mass of boron nitride, and 5-15% by mass of phenyl silicone spherical elastic powder Fee (Patent Document 5) It is draft. These solid powder cosmetics are described as having both a feeling of use and impact resistance, but are not fully satisfactory.

Further, powders surface-treated with dimethiconol and aminosilane that can be used for solid powder cosmetics, and solid powder cosmetics containing the powders are disclosed (Patent Document 6, Patent Document 7, Patent Document 8). Patent Document 9).
Furthermore, in Patent Document 10, by adding a combination of a hydrophobized powder, a silicone-modified acrylic polymer, a flexible spherical composite powder and a surfactant having an HLB of 10 or less, it can be applied to the skin. It is described that a solid powder cosmetic material having no after-tackiness, moderate moisturizing feeling, and excellent makeup sustainability without color transfer can be obtained.

JP 2014-005279 A JP 2009-209139 A JP 2009-256318 A JP 2014-129279 A Japanese Patent Laid-Open No. 2006-037497 Japanese Patent No. 5901798 JP, 2006-216422, A JP, 2006-216423, A JP, 2006-216424, A Japanese Patent No. 5368805

  It is an object of the present invention to obtain a solid powder cosmetic with excellent quality that has a “soft” feel, a finish that does not float, and high impact resistance.

  The present inventor has a solid powder cosmetic containing a powder treated with dimethiconol and aminosilane and a flexible composite powder that has a "soft" feel, a non-floating finish, and high impact resistance. The present invention has been completed by finding that the above three conditions are satisfied.

The main configuration of the present invention is as follows.
(1) A solid powder cosmetic containing (A) a powder surface-treated with dimethiconol and aminosilane, (B) a flexible composite powder, and (C) an oil agent.
(2) The solid powder cosmetic according to (1), wherein the surface-treated powder of (A) is at least one selected from talc, sericite, synthetic phlogopite, and mica.
(3) (B) Flexible composite powder covers core silicone resin powder, silicone rubber powder and silicone elastomer powder with at least one selected from silicone resin, metal oxide, surfactant and boron nitride. The solid powder cosmetic according to (1) or (2).
(4) The solid powder cosmetic according to any one of (1) to (3), containing 5 to 35% by mass of the powder surface-treated with dimethiconol of (A) and aminosilane.
(5) The solid powder cosmetic according to any one of (1) to (4), which contains 3 to 15% by mass of (B) a flexible composite powder.
(6) The solid powder cosmetic according to any one of (1) to (5), wherein liquid oil that is liquid at 25 ° C. is used as (C) oil agent, and 5 to 10% by mass of the liquid oil is contained.
(7) The solid powder cosmetic according to any one of (1) to (6), further comprising (D) 8 to 12% by mass of boron nitride.
(8) The solid powder cosmetic according to any one of (1) to (7), further comprising (E) 10 to 15% by mass of a particulate metal oxide.

The solid powder cosmetics of the present invention containing a powder treated with dimethiconol and aminosilane, a flexible composite powder, and an oil agent have excellent impact resistance and do not float. Cosmetics are obtained.
Moreover, it becomes possible to mix | blend highly the components which fall impact resistance, such as boron nitride.
In particular, even if the total amount of components (flexible composite powder, boron nitride) that may impair the impact resistance is 11 to 27% by mass, the impact resistance is not impaired, and the touch is soft. A makeup finish that doesn't float can be achieved.
Furthermore, even if the oil content is 5 to 10% by mass, a solid powder cosmetic is obtained. In particular, excellent impact resistance can be realized without blending ingredients such as solid oil and semi-solid oil that may decrease the feeling of use and finish.
In the formulation of solid powder cosmetics, solid oil and semi-solid oil are blended for the purpose of binding powder, and usually 0.2 to 1% by weight, but less than 0.2% by weight. It is said that the powder has insufficient binding properties and cannot be uniformly applied at the time of application, and problems such as a feeling of use such as a finish that is not powdery and moist are likely to occur. On the contrary, when it exceeds 1 mass%, the spread may become heavy or caking may occur. For this reason, in the past, it was necessary to perform a so-called subtle “saddle adjustment” to perform a confirmation test for caking, along with adjustment of the feeling of use such as stickiness, spread, powderiness, moist feeling, etc. of cosmetics. Trial and error was essential. However, the present invention eliminates such trial and error.
In addition, the present invention suppresses unpleasant and unpleasant feeling even when highly blended with fine zinc oxide and fine titanium oxide, which have an unfavorable UV protection effect, and maintains a soft feel. it can. Even when a fine metal oxide such as fine zinc oxide or fine titanium oxide that enhances the ultraviolet ray protection function is blended as high as 10 to 15% by mass, it is possible to ensure a “soft” feel, a non-floating finish, and impact resistance.

The present invention relates to a solid powder cosmetic containing (A) a powder surface-treated with dimethiconol and aminosilane, (B) a flexible composite powder, and (C) an oil agent.
(A) Powder Surface-treated with Dimethiconol and Aminosilane The (A) surface-treated powder of the present invention is obtained by surface-treating a powder with dimethiconol and aminosilane. The powder to be surface-treated is not particularly limited as long as it can be used in cosmetics, and powders surface-treated with dimethiconol and aminosilane are disclosed in Patent Document 6, Patent Document 7, Patent Document 8, and Patent Document 9. It can be produced by the method described. Moreover, a commercial item can also be used. As a commercial product, SE treatment series manufactured by Miyoshi Kasei Co., Ltd. can be used, SE-S-100S (treated powder is sericite), SE-TA-13R (treated powder is talc), MiyoSYN. Fine-SE (treated powder is synthetic phlogopite) and SE-MA-23 (treated powder is mica) can be exemplified.
The preferred amount of the powder surface-treated with dimethiconol and aminosilane is 5 to 35% by mass, more preferably 8 to 30% by mass. If the amount is less than 5% by mass, the intended effect of the present invention may not be sufficiently obtained. Moreover, even if it mixes exceeding 35 mass%, since the effect does not increase greatly, even if it mixes exceeding 35 mass%, it cannot be said that it is preferable from the point of cost effectiveness.

(B) Flexible composite powder The (B) flexible composite powder of the present invention refers to a composite powder obtained by combining flexible particles (flexible particles) with other components. Examples of the composite method include coating-treated flexible spherical composite particles obtained by coating the surface of flexible spherical particles with other components. Here, the “coating” means that the coating may be arranged by a bond such as a chemical bond or a hydrogen bond with a flexible particle serving as a nucleus, or a coating may be arranged around the particle by physical adhesion. It doesn't matter. The flexible composite powder may be further subjected to a water repellency treatment with a silicone oil such as dimethylpolysiloxane, or may be subjected to a hydrophilic treatment with a polyhydric alcohol such as 1,3-butylene glycol. The flexible particles preferably have rubber elasticity.
Preferred as the core flexible particles are silicone particles formed from silicone, which are called silicone resin powder, silicone rubber powder, and silicone elastomer powder. Examples of the coating include silicone resins, metal oxides, surfactants, and boron nitride. The preferable shape of the particles of the flexible composite powder is spherical, and it is more preferable to select one having an average particle diameter of 1 to 20 μm, more preferably 2 to 20 μm. Moreover, the preferable compounding quantity of flexible composite powder is 3-15 mass%, More preferably, it is 5-12 mass%, More preferably, it is 5-10 mass%. If it is less than 3% by mass, the intended effect of the present invention may not be sufficiently obtained. When it mixes exceeding 15 mass%, there exists a possibility that the kind and compounding quantity of (C) oil agent need to be adjusted finely.
The flexible composite powder used in the present invention combines softness suitable for implementation and adhesion to the skin (disperses cleanly without agglomeration during composition preparation, but has adhesion to the skin). What is illustrated below can be used. For example, as commercially available products of flexible composite powder in which silicone rubber powder is coated with silicone resin, KSP-100, KSP-101, KSP-102 and KSP-105 manufactured by Shin-Etsu Chemical Co., Ltd. can be exemplified. The designation name is (vinyl dimethicone / methicone silsesquioxane) crosspolymer. This is also a commercial product of a flexible composite powder in which a silicone rubber powder is coated with a silicone resin. KSP-300 (designated name; (diphenyl dimethicone / vinyl diphenyl dimethicone / silsesquioki) manufactured by Shin-Etsu Chemical Co., Ltd. Sun) cross polymer), KSP-411 (display name; Polysilicone-1 cross polymer), KSP-441 (display name; Polysilicone-22). (Dimethicone / vinyl dimethicone) As a commercial product of a flexible composite powder in which a cross polymer is coated with a metal oxide, EP-9261 TI Cosmetic Powder (coating: titanium oxide) manufactured by Toray Dow Corning Co., Ltd., EP Examples include -9293ALCosmic Powder (coating; aluminum oxide) and 9701 Cosmic Powder (coating; silica). EP-9289 LLC Cosmetic Powder (coating; lauroyl lysine), (dimethicone / vinyl dimethicone) crosspolymer coated with silica, and (1,3-butylene glycol) coated with silica. EP-9801 Hydro Cosmetic Powder (coating; silica) treated with

  In addition, even if the component (B) is replaced with a non-complexed spherical powder (for example, polyacrylalkyl acid powder, nylon powder, polyurethane powder, polymethylsilsesquioxane, etc.), No effect ("soft" feeling, impact resistance, no powder lift in the finished product) can be obtained (see Comparative Example 5). However, in addition to the flexible composite powder, blending as an optional component is not limited as long as the effects of the present invention are not impaired.

(C) Oil agent The oil agent used in the present invention may be any as long as it can be blended in cosmetics. Liquid oils that are liquid at 25 ° C. are preferred. For example, triglyceride, liquid wax, ester oil, hydrocarbon oil, silicone oil and the like can be exemplified. Triglycerides include olive oil, macadamia nut oil, sunflower seed oil, avocado oil, safflower oil, rice bran oil, rice germ oil, wheat germ oil, castor oil, grape seed oil, almond oil, coconut oil, palm oil, and tri (caprylic acid / Capric acid) glyceryl, tri-2-ethylhexanoic acid glyceryl and the like. Examples of liquid wax include jojoba oil. As ester oils, 1,3-butylene glycol diisononanoate, 1,3-butylene glycol di-2-ethylhexanoate, dipropylene glycol diisononanoate, dipropylene glycol di-2-ethylhexanoate, isononyl isononanoate, neocapric dicaprate Examples thereof include pentyl glycol, ethylhexyl palmitate, isostearyl neopentanoate, dilauroyl glutamate (phytosteryl / octyldodecyl), tetraerythritol tetraethyl acetate, isostearyl hydrogenated dimerlinoleate / phytosteryl and the like. Examples of the hydrocarbon oil include squalane, squalene, and liquid paraffin. Examples of silicone oils include dimethylpolysiloxane of chain polysiloxane, cyclopentasiloxane of cyclic polysiloxane, and the like.
In this invention, it is preferable to contain 5-10 mass% of oil agents.

According to the present invention, for the purpose of further improving the impact resistance, it is not necessary to add a solid or pasty oil agent at 25 ° C. That is, wax wax, paraffin wax, ceresin wax, microcrystalline wax, Fischer-Tropsch wax, polyethylene wax, ethylene / propylene copolymer, candelilla wax, carnauba wax, bead wax, which are often blended for the purpose of usually impact resistance. Silicone wax such as mole, gallow, dirow, montan wax, stearyl modified methylpolysiloxane, behenyl modified methylpolysiloxane, petrolatum, dipentaerythritol fatty acid (12-hydroxystearic acid, stearic acid, rosin acid) ester, hydroxystearic acid It is not necessary to add cholesteryl or hydrogenated oil.
However, in order to give a moist feeling to the solid powder cosmetic, a small amount may be blended as long as the effects of the present invention are not impaired. The small amount is less than 0.2% by mass, more preferably less than 0.1% by mass.

The following (D) boron nitride and (E) fine particle titanium oxide and / or fine particle zinc oxide are optional components in the present invention. The effect of the present invention can be sufficiently achieved by (A), (B), and (C), but since it is blended in the prescription used in the experiment, it will be described below.
(D) Boron nitride Boron nitride is a component known to inhibit impact resistance. However, it is a component that is preferably blended into the foundation because it has a smooth spread and moderate covering power. Furthermore, it became possible in this invention to mix | blend boron nitride.
Any form of boron nitride can be used as long as it can be blended into cosmetics. Examples of commercially available products include SHP-3 and SHP-6 manufactured by Mizushima Alloy Iron Co., Ltd.
The preferable compounding quantity of boron nitride is 8-12 mass%.

(E) Fine particle metal oxides such as fine particle titanium oxide and fine particle zinc oxide Fine particle titanium oxide and fine particle zinc oxide are components known to have an ultraviolet shielding effect. However, metal oxides such as fine particle titanium oxide and fine particle zinc oxide have a less favorable feel such as squeak. It is a component that is often blended when it is desired to provide a UV protection effect. In this invention, when mix | blending with cosmetics further, it can mix | blend freely, without considering a bad influence. Examples of commercially available products that can be blended include MTY-100SAS (fine particle titanium oxide), SPY-100MSIO (fine particle titanium oxide), and MZ-303M (fine particle zinc oxide) manufactured by Teika Co., Ltd.
When it is desired to impart a high UV protection effect to a foundation or the like, the preferred blending amount of the particulate metal oxide is 10 to 15% by mass in total. This blending amount is a blending amount at which squeak may be felt. For this reason, usually, an oil agent is blended in excess of 10% by mass or an oil agent such as wax or petrolatum is selected to adjust the feeling of use, but in the case of the present invention, such adjustment is not required.

A preferred blending composition containing the three components (A), (B) and (C) of the present invention is as follows. In the case of this blending composition, trial and error by “saddle control” that is essential in the preparation of cosmetics is not required.
(A) 5-35 mass% powder surface-treated with dimethiconol and aminosilane
(B) Flexible composite powder 3-15% by mass
(C) Oil agent 5-10 mass%
(Other powder) 40-87 mass%
When mix | blending said (D) component and (E) component, it mix | blends as a part of other powder.

  In the solid powder cosmetic of the present invention, optional components can be blended within a range not impairing the effects of the present invention. Specifically, powders, oils, antioxidants, UV absorbers, moisturizers, fragrances, fragrances, preservatives, blood circulation promoters, cooling agents, antiperspirants, disinfectants, skin activators and other Cosmetic ingredients and medicinal ingredients can be blended.

  The solid powder cosmetic of the present invention can be a foundation, a pressed powder, a teak color, an eye shadow, a sunscreen foundation, a moisturizing foundation or the like.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples. The unit of composition in Table 1 is mass%.
1. Preparation of solid powder cosmetics (foundations) of Examples 1 to 7 and Comparative Examples 1 to 5 (1) Preparation procedure Solid powders of Examples 1 to 7 and Comparative Examples 1 to 5 in the formulation of Table 1 A cosmetic was prepared. Ingredients other than component (C) were uniformly mixed for 4 minutes with a blender mixer (LAB.MIXER manufactured by HANIL). Thereafter, the component (C) was added, and the mixture was uniformly mixed with a mixer for 8 minutes. A fixed amount (10 g) was collected in a square metal pan, and compression-molded twice at a press pressure of 2.6 MPa for 1 second.

(2) Measurement / Evaluation of Solid Powder Cosmetics The hardness and drop strength (number of times of withstanding the drop) of the obtained solid powder cosmetics were measured.
In addition, impact resistance was evaluated from the drop strength, and the touch that was “soft” by a sensory test, the finish after makeup, and the absence of powder floating were evaluated.
<Hardness>
The obtained solid powder cosmetic was measured using an Asker hardness meter manufactured by Kobunshi Keiki Co., Ltd., and measurement conditions (measurement needles were installed at a height of 1 cm from the press surface of the solid powder cosmetic. Height 1 cm The measurement push needle was lowered from Five places of the press-molded product were measured, and the average value was calculated.
<Impact resistance (drop strength)>
The resulting solid powder cosmetic was measured for drop strength by the following test method, and the impact resistance was evaluated from the results.
(Measurement of drop strength)
The action of dropping the solid powder cosmetic filled in the metal pan from a height of 50 cm onto a steel desk was repeated, and the number of evaluations until “cracking, cracking, or staking” occurred was evaluated. In addition, the thing which endured the 21st fall ended the measurement at 21 times, and was described as 20 times or more in the table. Other than that, the numerical value (the number of times of having withstood the drop) immediately before any of “cracking, cracking, and cracking” was described.
The impact resistance was evaluated according to the following criteria.
◎: 11 to 20 times, impact resistance is very good ○: 8 to 10 times, impact resistance is good △: 4 to 7 times, there is some anxiety about impact resistance X: Less than 3 times, and shock resistance is uneasy <feeling “soft”>
The obtained solid powder cosmetic was rubbed with a puff, spread on the inner side of the upper arm, and the “soft” feeling (“soft” feeling) was evaluated according to the following evaluation criteria.
◎: Strongly feels “soft” ○: “Soft” feel ×: No “soft” feel
<No powder lift in the finished product>
The obtained solid powder cosmetic was scraped with a puff, spread on the inner side of the upper arm, and evaluated whether or not the finished powder floated according to the following evaluation criteria.
◎: Powder does not float at all ○: Powder does not float △: Powder floats slightly ×: Powder floats

(3) Results As shown in Table 1, the solid powder cosmetics of Examples 1 to 7 cleared 8 times or more in the drop strength test although the hardness was not so high as 20 to 33, All had good impact resistance. Moreover, there was no powder floating due to the “soft” feel. On the other hand, the solid powder cosmetics of Comparative Examples 2 to 4 had the same hardness as in the Examples, but they were 4 to 7 times in the drop strength test and there was anxiety in impact resistance ( △ Evaluation). Further, none of the solid powder cosmetics of Comparative Examples 2 to 4 realized both the “soft” feel and the finish without powder floating. In Comparative Example 1, the hardness was 31, the result of the drop test was 20 times or more, and the impact resistance was good. However, it did not have a “soft” feel and a powder-free finish, and the intended cosmetics could not be obtained. Comparative Example 5 is a prescription in which a spherical powder that has not been compounded is blended in place of Component B (flexible composite powder) of the present invention, but has a hardness of 37, which shows the highest value in this test and has a drop strength. Cleared 20 times or more (impact resistance was judged as ◎). However, there was no “soft” feel, and the finish was floating. In Comparative Example 5, a caking phenomenon occurred when rubbing with a puff.
In addition, the composition (A + B + C) of the present invention is excellent in feeling of use such as boron nitride, but even if it is further blended with the component (D), which is known to have low impact resistance by blending. It was found that high blending is possible while realizing a “soft” feel and a non-floating finish without impairing the impact resistance.
Furthermore, 10-15% by mass of the component (E) (particulate metal oxide such as particulate zinc oxide or particulate titanium oxide) which is not good in touch but has an ultraviolet protection effect by adopting the constitution (A + B + C) of the present invention. It was confirmed that even if it was highly blended, the unpleasant and peculiar unpleasant feel did not appear on the table, and the “soft” feeling of use and the finish without powder lifting could be maintained as they were.

Formulation Example A formulation example of the solid powder cosmetic of the present invention is shown below.
[Prescription Example 1]
Formula of solid powder foundation Ingredients Amount (% by mass) Silicone-treated sericite 7
2. Silicone-treated mica 7
3. 3. Silicone-treated talc Silicone-treated mica 7
5. Silicone-treated titanium oxide 19
6). Silicone-treated zinc oxide 5
7). SE-TA-13R 10
8). MiyoSYN Fine-SE (Synthetic phlogopite surface-treated powder) 10
9. Acrylic resin powder 5
10. (Diphenyl dimethicone / vinyl diphenyl dimethicone / silsesquioxane) cross polymer 15
11. Coloring pigment appropriate amount
12 Dimethicone (50cs) 4
13. Dimethicone (100cs) 3

  All ingredients were mixed uniformly, filled into a metal pan, and pressed to obtain a solid powder cosmetic. The obtained cosmetic was excellent in impact resistance, had a “soft” feel, and did not float.

Claims (8)

  (A) A solid powder cosmetic containing a powder treated with dimethiconol and aminosilane, (B) a flexible composite powder, and (C) an oil agent.   The solid powder cosmetic according to claim 1, wherein the surface-treated powder (A) is at least one selected from talc, sericite, synthetic phlogopite, and mica.   (B) The flexible composite powder is obtained by coating the core silicone resin powder, silicone rubber powder and silicone elastomer powder with one or more selected from silicone resin, metal oxide, surfactant and boron nitride. The solid powder cosmetic according to claim 1 or 2.   The solid powder cosmetic according to any one of claims 1 to 3, comprising 5 to 35 mass% of the powder surface-treated with (A) dimethiconol and aminosilane.   (B) The solid powder cosmetic according to any one of claims 1 to 4, comprising 3 to 15% by mass of a flexible composite powder.   The solid powder cosmetic according to any one of claims 1 to 5, wherein a liquid oil that is liquid at 25 ° C is used as (C) an oil agent, and the liquid oil is contained in an amount of 5 to 10% by mass.   The solid powder cosmetic according to any one of claims 1 to 6, further comprising (D) 8 to 12% by mass of boron nitride.   The solid powder cosmetic according to any one of claims 1 to 7, further comprising (E) a particulate metal oxide in an amount of 10 to 15% by mass.