The present invention relates to a cosmetic as well as a preparation method thereof, and more particularly to a foundation cream/liquid with a controllable color change, as well as a preparation method thereof.
Foundation cream/liquid is a very important category of cosmetics, which is also a basis for good makeup effects. Cosmetic manufacturers usually provide foundation with different colors (such as dark skin color and light skin color) based on user skin colors. An appearance color and a practical-use color of a common foundation cream are basically the same.
In order to create novel visual effects for attracting consumers, a new type of color-changeable foundation has been developed in recent years. Color change refers to that: during applying, a color of the cream is changed from light (such as pale and white) to dark (such as dark skin color and light skin color); or changed from one (such as light yellow) to another (such as deep red). Such foundation not only covers small wrinkles or blemishes like a common foundation, but also has an obvious color changing effect, which is very novel and suitable for creating a market concept as well as attracting the consumers.
Commercially available color-changeable foundation comprises three types as follows.
1) Cellulose Adhesion Technology
On a surface of inorganic pigments (which usually comprises iron oxide yellow, iron oxide red, iron oxide black, etc.) used in cosmetic foundation, ultra-fine titanium dioxide is adhered by cellulose as an adhesion medium. A preparation method thereof is very close to a Chinese folk traditional food: rice glue ball (which takes fillings as a core, and wet glutinous rice flour is adhered on a surface of the core). In use, after being applied by fingers, the titanium dioxide adhered on the surface of the pigment is separated by a shear force, and an original color of the pigment appears, in such a manner that the foundation changes from white (or pale) to skin color, as shown in
2) Color-Changeable Pearl Powder Technology
Through refraction and scattering effects of the pearl powder on light, the color changing effect is achieved. When using, the pearl powder, which is emulsified and wrapped in the cream, is applied on skin, in such a manner that the pearl powder is exposed to light for displaying color changing.
3) Acid-Base Indicator
The foundation is prepared with several acid-base indicators according to a principle that when external pH value changes, colors of the acid-base indicators will change. In use, the acid-base indicators contact with the skin (whose pH is slightly acidic), then the color thereof changes, resulting in color changing effect.
In practice, all the above three types of color-changeable foundation have serious defects as follows.
1) Defects of the Cellulose Adhesion Technology:
(1) weak covering ability: wherein a particle size (particle diameter) of the inorganic pigment and a shape thereof are generally stable (for example, particle of iron oxide red is generally spherical with a diameter of 0.3-0.5 um, and iron oxide black is typically cubic with a diameter of about 0.3 um); in order to achieve good adhesion wrapping effect, a particle size of the titanium dioxide should be as small as possible (commonly nano titanium dioxide); furthermore, in order to achieve fast and significant color changing effect, an amount of the titanium dioxide adhered on the surface of the inorganic pigment surface should not be too many, and a thickness of a adhesion layer should not be too thick; therefore, it is difficult to achieve sufficient covering ability;
(2) slow color change:
during using the foundation, there is a smearing process; iron oxide particles wrapped by the titanium dioxide are broken under the shear force, in such a manner that the iron oxide particles wrapped are exposed for providing the color changing effect;
therefore, color change speed depends on magnitude of force, speed of smearing, and firmness of adhered particles; wherein slowly and gently smearing is not conducive to breaking the particles, which means not conducive to showing the color changing effect; however, as a cosmetic for face, a foundation cream/liquid is hardly to be rapidly and repeatedly smeared with a larger force during using, which lowers the color changing speed and effect of such foundation;
(3) difficulty of controlling production process:
firmness cellulose adhesion is a contradiction: if the firmness is too high, the foundation cream/liquid is difficult to provide the color changing effect during using; if the firmness is too low, the particles of the foundation cream/liquid will be broken during producing and packaging, which expose the inorganic pigments too early;
therefore, during actual production, the cellulose adhered color-changeable foundation requires a lot during production: paddle must not scrape walls, powder need to be pre-soaked following a strict time and temperature, and emulsifying time and temperature must be strictly controlled; otherwise, product quality is difficult to be controlled.
2) Defects of the Color-Changeable Pearl Powder Technology:
(1) insufficient color changing effect:
before smearing, the color-changeable pearl powder is hidden in the cream and is not exposed to light, so as to hiding color effects of the pearl powder; after smearing, the pearl powder is applied on the skin and exposed to the light, so as to show colors; which is a color changing principle of such technology;
however, the color effect of the pearl powder is much weaker than that of the iron oxide, while main roles of the foundation cream is to cover blemishes and adjust skin color, where the pearl powder is inadequate;
(2) shiny effect of pearl powder, which is not suitable for entire face:
the pearl powder naturally has a shiny pearl effect, which is more suitable for is more suitable for eye shadow, lip gloss and other areas in a makeup process; however, the foundation is a make-up basis for the entire face; it will be very unnatural if the entire face is shiny.
3) Defects of Using Acid-Base Indicators:
(1) there is only a color changing effect without modifying and protecting effects which are essential for foundation products;
there is only a color changing process, which is not able to cover blemishes and adjust the skin color;
(2) harm to human body without benefit:
Commonly used acid-base indicators are mainly: nitrophenol, phenolphthalein, thiosulfate phenolphthalein and azo compounds; which basically belong to organic weak acids or organic weak bases; most of these agents are on lists of cosmetic raw materials, which means it is not allowed to use such agents in cosmetics.
A technical problem to be solved by the present invention is to provide a foundation cream/liquid with a controllable color change and a preparation method thereof. The present invention overcomes defects of the above technologies from a technical origin, wherein a color changing effect of the color-changeable foundation cream/liquid prepared is controllable and rapid; a covering ability is strong; colors are varied; safety and harmlessness are guaranteed; and preparation is simple.
Accordingly, in order to accomplish the above objects, the present invention provides:
pre-mixed powder for a foundation cream/liquid with a controllable color change, comprising: titanium dioxide and an inorganic pigment, wherein the titanium dioxide is processed with a methyl triethoxy silanization surface treatment; the inorganic pigment is processed with an octyl triethoxy silanization surface treatment. According to the present invention, totally different surface treatments are provided to the titanium dioxide and the inorganic pigment (iron oxide) in the foundation cream/liquid, in such a manner that surface properties of such two kinds of powder are quite different. After different surface treatments, the surface properties of the inorganic pigment and the titanium dioxide are quite different as follows.
Octyl groups of eight carbon atoms are connected to an end of a surface silicon atom of the inorganic pigment. Due to being long, a carbochain thereof has a sufficient dispersity in fat of an aliphatic series; while the carbochain has a poor compatibility in oxosilane.
A methyl group of a carbon atom is connected to an end of a surface silicon atom of the titanium dioxide. Due to being short, a carbochain thereof has a sufficient compatibility in the oxosilane.
Therefore, the color-changeable foundation cream/liquid prepared with the pre-mixed powder of the present invention has technical effects such as a controllable and rapid color changing effect, a strong covering ability, varied colors, safety and harmlessness.
According to the pre-mixed powder present invention, the inorganic pigment comprises iron oxide yellow, iron oxide red and iron oxide black. The inorganic pigment may be other inorganic pigments for foundation. By adjusting contents of the inorganic pigment with different colors, varied foundation cream/liquid is able to be prepared.
According to the pre-mixed powder present invention, detail surface treatment methods may be conventional surface treatment methods as long as same technical effects are guaranteed. After the methyl triethoxy silanization surface treatment, a surface of the titanium dioxide is characterized in that a methyl group of a carbon atom is connected to an end of a surface silicon atom of the titanium dioxide; after the octyl triethoxy silanization surface treatment, a surface of the inorganic pigment is characterized in that octyl groups of eight carbon atoms are connected to an end of a surface silicon atom of the inorganic pigment.
Accordingly, the present invention further provides preferred surface treatment methods, in such a manner that a better surface treatment effect is achieved, the surface properties of the titanium dioxide and the inorganic pigment are more stable, and distribution is evener.
A method of the methyl triethoxy silanization surface treatment preferably comprises steps of:
thoroughly mixing 0.45 kg methyl triethxy silane with 1.05 kg 95% ethanol for obtaining a surface treatment agent just before using;
adding 15 kg titanium dioxide into a high-speed mixer; under a high mixing speed, spraying the surface treatment agent prepared into the high-speed mixer with a spray tank, and thoroughly stirring for thoroughly mixing the surface treatment agent with the titanium dioxide; and
discharging powder and instantly sending into an oven, heating at 105° C. for 4 h, and naturally cooling before discharging.
A reaction process is shown in
A method of the octyl triethoxy silanization surface treatment preferably comprises steps of:
thoroughly mixing 0.45 kg octyl triethxy silane with 1.05 kg 95% ethanol for obtaining a surface treatment agent just before using;
adding 15 kg inorganic pigment into a high-speed mixer; under a high mixing speed, spraying the surface treatment agent prepared into the high-speed mixer with a spray tank, and thoroughly stirring for thoroughly mixing the surface treatment agent with the inorganic pigment; and
discharging powder and instantly sending into an oven, heating at 105° C., or 70° C. if the inorganic pigment is the iron oxide yellow, for 4 h, and naturally cooling before discharging.
A reaction process is shown in
According to the pre-mixed powder present invention, after the surface treatments, a content of the titanium dioxide is 75-95 wt %, and a rest is the inorganic pigment. For example, a preferred color-changeable pre-mixed powder CC807 comprises (wt %):
the titanium dioxide treated by methyl triethoxy silane: 88%;
the iron oxide yellow treated by octyl triethoxy silane: 7.6%;
the iron oxide red treated by the octyl triethoxy silane: 3%;
the iron oxide black treated by the octyl triethoxy silane: 1.4%.
According to the present invention, through certain surface treatment methods, differences between the surface properties of the titanium dioxide and the inorganic pigment are artificially increased; then certain formulas are adopted, in such a manner that the titanium dioxide and the inorganic pigment are in different distribution states in an entire emulsification system, so as to control the color changing effects.
Furthermore, the present invention provides a foundation cream/liquid with a controllable color change, comprising the pre-mixed powder for color-changeable foundation cream/liquid. The foundation cream/liquid further comprises an emulsifier, an emollient, a preservative and an essence according to requirements. the emollient is a silane emollient and so on. A preparation method of the foundation cream/liquid may be a conventional foundation cream/liquid preparation method.
However, for optimizing the color changing effect of the pre-mixed powder of the present invention, technical requirements for emulsifying the pre-mixed powder in the foundation cream/liquid are strict, which means the pre-mixed powder must be fully emulsified in the foundation cream/liquid, and evenly dispersed.
Therefore, according to the present invention, a formula and a preparation method of a color-changeable foundation cream/liquid which specifically use the pre-mixed powder are further optimized, which enables a best effect of the pre-mixed powder during using.
Preferably, a formula and a preparation method of a color-changeable foundation cream/liquid are as follows.
The formula is:
The preparation method comprises steps of:
1) mixing and stirring an A phase, keeping homogeneity for 1 min, and thoroughly dispersing with a DC9040 silicone elastomer;
2) heating the A phase to 55-60° C., then adding B phase powder, and keeping homogeneity for 1 min for thoroughly dispersing the powder;
3) meanwhile, heating a C phase to about 55-60° C. for completely melting;
4) increasing a stirring speed of the A and B phases (to 200-300 rpm), slowly adding the C phase into the A and B phases for completely emulsifying;
5) cooling by stirring until a temperature is lower than 45° C., then adding a D phase in such a manner that cream becomes white, and discharging; and
6) during cooling, keeping a stirring speed (at 200-300 rpm), wherein the cream becomes white within 2-3 h.
With the foregoing formula and preparation method, a certain formula and an optimized method are adopted, wherein with a specific technique of mixing the A, B, C and D phases, the pre-mixed powder of the present invention is fully emulsified in the foundation cream/liquid, and is evenly dispersed. Furthermore, color is rapidly changed during using, which optimizes an effect.
Accordingly, advantages of the present invention are as follows.
1) Rapid Color Change
After gently applying the color-changeable foundation of the present invention on skin, the color changing effect will instantly show.
2) Strong Covering Ability
According to the color-changeable foundation of the present invention, a particle size thereof is not limited, and an addition amount in the formula is not limited much, while an excellent covering ability is achieved.
3) Varied Colors and Adjustable Chroma
According to the color-changeable foundation of the present invention, an addition amount of the titanium dioxide in the formula is not limited much, which enables a very good coloring effect.
4) Safety
The color-changeable foundation treated by the present invention comprises no acid-base indicator, thereby causing no harm to the skin. The above surface treatment methods have been practiced for many years in cosmetic applications, which are proved to be safe and harmless.
5) Simple Production Technique
The production technique is simple and controllable, and materials used are shear-resistant, extrusion-resistant, and vibration-resistance, which are suitable for transportation by cosmetic manufacturers.
In order to achieve a sufficient color effect, the color-changeable foundation formula designed by the present invention adopts the emulsion system with silicone oil wrapping water. Although the foundation feels silky, breathable and comfortable, a moisture effect thereof is insufficient. Therefore, in autumns and winters, other skin care products are needed.
Referring to preferred embodiments, the present invention is further illustrated.
A method of a methyl triethoxy silanization surface treatment of titanium dioxide comprises steps of:
thoroughly mixing 0.45 kg methyl triethxy silane with 1.05 kg 95% ethanol for obtaining a surface treatment agent just before using;
adding 15 kg titanium dioxide into a high-speed mixer; under a high mixing speed, spraying the surface treatment agent prepared into the high-speed mixer with a spray tank, and thoroughly stirring for thoroughly mixing the surface treatment agent with the titanium dioxide; and
discharging powder and instantly sending into an oven, heating at 105° C. for 4 h, and naturally cooling before discharging.
A method of the octyl triethoxy silanization surface treatment preferably comprises steps of:
thoroughly mixing 0.45 kg octyl triethxy silane with 1.05 kg 95% ethanol for obtaining a surface treatment agent just before using;
adding 15 kg inorganic pigment into a high-speed mixer; under a high mixing speed, spraying the surface treatment agent prepared into the high-speed mixer with a spray tank, and thoroughly stirring for thoroughly mixing the surface treatment agent with the inorganic pigment; and
discharging powder and instantly sending into an oven, heating at 105° C., or 70° C. if the inorganic pigment is the iron oxide yellow, for 4 h, and naturally cooling before discharging.
Adjustment of the above proportions only affects the color of the foundation products, wherein the proportions are free to change according to a desired color of the foundation products. As a basis of make-up, the content of the titanium dioxide is usually at 75%-95%, wherein a higher content looks too white, while a lower content looks too dark, which are not conducive to a sufficient make-up effect.
Formulas are as follows.
A preparation method comprises steps of:
1) mixing and stirring an A phase, keeping homogeneity for 1 min, and thoroughly dispersing with a DC9040 silicone elastomer;
2) heating the A phase to 55-60° C., then adding B phase powder, and keeping homogeneity for 1 min for thoroughly dispersing the powder;
3) meanwhile, heating a C phase to about 55-60° C. for completely melting;
4) increasing a stirring speed of the A and B phases (to 200-300 rpm), slowly adding the C phase into the A and B phases for completely emulsifying;
5) cooling by stirring until a temperature is lower than 45° C., then adding a D phase in such a manner that cream becomes white, and discharging; and
6) during cooling, keeping a stirring speed (at 200-300 rpm), wherein the cream becomes white within 2-3 h.
In practice, the foundation product according to the preferred embodiment 3 is significant in the color changing effect, rapid in color change, strong in covering ability, easy to evenly smearing, breathable and easy to be absorbed. 30 testers were invited for trying the present invention (all females, 18-45 years old; testing time: May. 2014; testing positions: 15 testers in Shanghai and 15 testers in Guangzhou), wherein feedbacks (multiple-choice) thereof were collected as follows.
One skilled in the art will understand that the preferred embodiments of the present invention as described above are exemplary only and not intended to be limiting. The preferred embodiments are subject to change without departure from such principles. Therefore, this invention includes all modifications encompassed within the spirit and scope of the following claims
According to the present invention, the formula of the foundation cream/liquid with the controllable color change and the preparation method thereof adopt a certain formula and an optimized method, wherein with a specific technique of mixing the A, B, C and D phases, the pre-mixed powder of the present invention is fully emulsified in the foundation cream/liquid, and is evenly dispersed. Furthermore, color is rapidly changed during using, which optimizes an effect. According to the present invention, the foundation cream/liquid with the controllable color change has a rapid color changing effect, a strong covering ability, varied colors, adjustable chroma, safety, and simple production processes, which enables a great market prospect and a strong industrial practicability.
Number | Date | Country | Kind |
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201410328144.X | Jul 2014 | CN | national |
This application is a Continuation-in-Part of co-pending application Ser. No. 14/912,164 filed on Feb. 16, 2016, which is a U.S. National Stage of International Application No. PCT/CN2015/079027 filed on May 15, 2015, for which priority is claimed under 35 U.S.C. § 120; and this application claims priority of Application No. 201410328144.X filed in China on Jul. 10, 2014 under 35 U.S.C. § 119; the entire contents of all of which are hereby incorporated by reference.
Number | Date | Country | |
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Parent | 14912164 | Feb 2016 | US |
Child | 15985145 | US |