KR102027350B1 - Method for evaluating the applied film with the composition for skin external application - Google Patents

Abstract

The present invention relates to a method for evaluating a coating film state of an external preparation for skin, and more specifically, a method that can objectively and visually indicate the thickness of the coating film, a state where the composition is applied, and the like after applying the external preparation composition for skin to artificial skin. It is about.

Description

Method for evaluating the external composition composition coating film {Method for evaluating the applied film with the composition for skin external application}

The present invention relates to a method for evaluating a coating film state of an external preparation for skin, and more specifically, a method that can objectively and visually indicate the thickness of the coating film, a state where the composition is applied, and the like after applying the external preparation composition for skin to artificial skin. It is about.

Recently, the demands of customers who want a thinner and lighter makeup method are getting stronger and product development is being made. However, the measurement method of the existing makeup products lacks subjective sensory evaluation and quantifiable data, and there is little visible part of the information on the products with different usage feelings. Only subjective results on the state of the coating film of the product could be obtained.

In addition, although such a sensory evaluation could confirm the surface state of the film | membrane which apply | coated the product, the result about the thickness of the coating film which is directly related to the usability of the product was difficult to obtain.

Accordingly, the present inventors have tried to provide a method that can replace the conventional method for evaluating the state of the coating film by the sensory evaluation, by applying the product to the artificial skin using the device, by cutting and measuring the objective and visual representation It has been found that this possible measurement is possible.

Therefore, an object of this invention is to provide the evaluation method which can objectively display data about the thickness of a coating film, the state of a coating surface, etc. after apply | coating a skin external agent.

In order to achieve the above object, the present invention comprises the steps of 1) preparing a skin external composition to be evaluated; 2) applying the external composition for skin to artificial skin using a device; 3) cutting the artificial skin and observing the cross section by SEM; And 4) measuring the thickness of the artificial skin to which the composition is applied.

The method for evaluating the skin external composition composition coating film provided by the present invention can objectively and visually express the state, thickness, etc. of the coating film after use of the product, so that the information can be more immediately and easily understood and communicated to the customer. Features can be presented as objective data rather than subjective usability results.

1 is a photograph taken by SEM after cutting a coating by applying a solid lipstick to various types of application surface.
2 is a SEM photograph of the cut surface after cutting in the case of applying a solid lipstick to the artificial skin using a hand and in the case of using a rheometer.
Figure 3 is a photograph taken by SEM after the cut in the case of applying the liquid cosmetic composition to the artificial skin using a hand and in the case of using a rheometer.
Figure 4 is a photograph taken by using a SEM or an optical microscope to cut the surface after applying the solid lipstick.
Figure 5 shows that after applying the solid lipstick to the artificial skin photographed the coating state by SEM.
Figure 6 shows the results of sensory evaluation after applying the solid lipstick to the artificial skin and the friction force and coating film thickness measured by using the device.
Figure 7 shows that after applying the liquid foundation on the artificial skin taken the SEM photograph.

The present invention relates to a method capable of objectively evaluating the state of the coating film after applying the external preparation composition for skin, including the following steps.

a) preparing a topical skin composition to be evaluated;

b) applying the skin external composition to artificial skin using a device; And

c) evaluating the coating film state of the composition applied to the artificial skin.

Hereinafter, the present invention will be described in more detail.

The present invention can be applied to the conditions similar to the application of the external skin composition to the actual skin, the objective thickness and coating of the coating film in the skin to which the composition is applied can be objectively quantified and can visually display data It is about an evaluation method.

The composition targeted by the evaluation method of the present invention is not particularly limited as long as it is a composition for external application for skin, and is not particularly limited even when the properties are in a solid or liquid state. In particular, the composition may be a makeup cosmetic composition among the external composition for skin.

As the material to which the product is applied in the present invention, it is preferable to use artificial skin in consideration of the absorbency of the product, the ease of measurement of the cut section, and the like in a state similar to that of the actual human skin.

In addition, although it is possible to use an apparatus or apply | coated by hand at the time of application | coating of the product to evaluate, it is preferable to use an apparatus for a more accurate measurement, and it is especially preferable to attach an application tool to a rheometer. In addition, when it is difficult to fix the tool directly to the rheometer, it is possible to mount the stand next to the rheometer to fix the application tool on the stand. When applying by hand, it is difficult to apply the force uniformly, because the application of the product may not be uniform. In addition, the tool used for the application of the product is not particularly limited as long as it is a tool for applying general cosmetics, and includes, for example, a puff, a sponge, a vibration puff, a brush, and the like, and a rubber material that can be used to apply the cosmetic composition. Similar finger shape tools, rubber tools, etc. can be used.

In the evaluation of the coating film, the amount of the composition to be applied is not particularly limited, but in general, the user may determine the method by considering the properties such as the method of applying the composition, the frictional force of the coated surface, the viscosity of the composition to be evaluated, and the like.

The present invention can provide objective data on the surface state of the coating film such as the thickness and uniformity of the coating film, the spreadability upon application of the product, and the like.

Regarding the thickness of the coating film, the thickness of the coating film can be measured by cutting the artificial skin coated with the product and observing it under a microscope.

At this time, the cutting of the artificial skin can be carried out using a cutting tool, but it is preferable to use a scalpel which is a surgical knife that is easy to cut with little pressure applied to the tissue and is sharp.

In the observation of the coating film, an optical microscope and a scanning electron microscope (SEM) can be used, but preferably, SEM is used. Optical microscopes have the advantage of being able to represent colors, but the magnification is very low, making it difficult to distinguish between cross-section differences and difficult to magnify them with high magnification. On the other hand, in the case of SEM, the result of black and white does not show the characteristics of the color product better, but the magnification is very high, and it is possible to express the finer part of the product. Can be represented.

Therefore, when evaluating the coating film using the SEM, the surface of the coating film on which the product is applied is coated with a material such as platinum, gold, carbon, and photographed by SEM.

In addition, in relation to the fixation of the sample for SEM imaging, the cut artificial skin cross section is not fixed unless there is a separate support device, so that the center section of the piece made of rubber is cut and sandwiched between the cut sections. It is preferable to use a viscous rubber material, in particular. In particular, the present invention uses a part of artificial skin. The artificial skin is a rubber material and consists of two layers of different shapes. The upper layer has a skin-like shape and occupies about 5% of the whole, and the remaining 95% is a viscous rubber. When the viscous rubber part is used, the upper layer is viscous. Strong, easy sample fixation

In addition, the uniformity of a coating film can be known through the thickness difference of the coating film with which the product was apply | coated. After measuring the thickness of the coating film for any selected various parts, it is possible to objectively indicate whether or not the product is uniformly applied by calculating the deviation thereof.

In addition, application | coating property at the time of application | coating of a product can be confirmed by measuring the frictional force of a coating film. Friction force can be measured by a method generally used in the art, and the method is not particularly limited. In the present invention, a rheometer is used to measure the frictional force.

Hereinafter, the present invention through the test examples in more detail.

Reference Example 1 Preparation of Sample (Solid State)

A conventional makeup cosmetic composition having a composition of Table 1 was prepared by a conventional cosmetic preparation method.

Solid lipstick (% by weight) L1 L2 Wax 11% 10% oil 47% 48% Paste 18% 18% powder 12% 6% Pigment 11% 16% Other One% 2%

Reference Example 2 Preparation of Sample (Liquid State)

As a conventional cosmetic preparation method, a liquid makeup cosmetic composition having the composition shown in Table 2 was prepared.

Liquid foundation (% by weight) H1 M1 Purified water 35% Purified water 44% glycerin 13% glycerin 10% ethanol 2.5% Triethylhexanoin 11% Squalane 7.5% Phenyltrimethicone 2% extract 5% Cetyl Dimethicone Copolyol 5% Polyethylene 4% Sorbitan isostearate 2% Silica 5% Cyclopentasiloxane 12% Cyclosiloxane 10% Vinyl Dimethyl Cross Polymer 5% Titanium dioxide 3% Titanium dioxide 8% Other 15% Other One%

Test Example 1 Selection of Coating Surface

In order to select a material to which a product suitable for use in the method of the present invention is applied, pretreatment with artificial skin (IMS vitro skin®), artificial leather, wool swatch, paper, artificial skin (Bio skin plate) as follows The material suitable for evaluating the properties of the coating film was examined.

The candidate material was cut | disconnected to the size of 4 cm * 5 cm, the coated surface was prepared, and the coated surface prepared to the rheometer (SUN Corporation (Japan) CR-500DX-L) was attached. Then, using a rheometer, the solid state makeup cosmetic composition L2 of Reference Example 1 was applied twice to the application surface. Thereafter, the coated surface was cut with a scalpel and the cut surface was photographed with SEM (HITACHI (Japan) S-4300). At this time, except the artificial skin, the cut application surface was fixed using a piece made of a viscous layer of the artificial skin. The results are shown in FIG.

As a result of confirming the photographed cross section shown in Figure 1, the artificial skin, artificial leather, wool swatch, paper, artificial skin cross-section of the artificial skin was the most similar to the actual human skin. In addition, in the case of artificial leather, the coating amount is smaller than that of other coating films of the cosmetic composition, so that the woven portion of the artificial leather below the coating film may cause errors in the measurement of thickness and observation of the coated surface. In the case of paper and wool swatches, it is difficult to measure the coating film by absorbing the cosmetic composition, and in particular, in the case of wool swatches, the cross section is in the shape of a thread weave, so it is difficult to discriminate when observing the cross section. In the case of artificial skin, it was not easy to cut the cross section, which caused the sample to come out on the cross section. On the other hand, in the case of artificial skin, the absorption phenomenon did not occur after the application of the cosmetic composition, it was confirmed that the cut section is suitable for measuring the cross section.

Therefore, artificial skin was used as the coated surface in the following test.

Test Example 2 Selection of Coating Method

1. Makeup products in solid state.

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. Then, the makeup cosmetic composition L2 of Reference Example 1 was applied to the applied surface twice by using a rheometer or a hand. Thereafter, the coated surface was cut with a scalpel and the cut surface was photographed by SEM. At this time, the cut application surface was fixed using a piece made of a viscous layer of artificial skin. The results are shown in FIG. 2.

As a result of confirming the photographed cross-section shown in Figure 2, when applied by hand, the coating film was uneven due to the lack of force control, and this resulted in different results depending on the selected cutting point, which could lead to inaccurate analysis results. . On the other hand, when the rheometer is used, it is possible to apply the cosmetic composition with a constant force, so that the surface of the coating film is even, so that the selection of the cutting point is easy, and the accurate friction force measurement is possible.

2. Makeup products in liquid state.

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. Then, about 0.1 g of the makeup cosmetic composition H1 in the liquid state of Reference Example 2 was raised to a length of about 2 cm on the application surface, and the composition was applied to the application surface once using a vibrating puff. At this time, the vibration puff was applied to the hand, or the 2p clamp was fixed to the stand with the support next to the rheometer using a clamp holder, and then the same vibration puff was fixed to the clamp, and the composition was applied using the rheometer. Thereafter, the coated surface was cut with a scalpel and the cut surface was photographed by SEM. At this time, the cut application surface was fixed using a piece made of a viscous layer of artificial skin. The results are shown in FIG.

As a result of confirming the photographed cross section shown in FIG. 3, when the composition was applied by hand, the coating film was uneven due to insufficient force control. On the other hand, when using a rheometer it was possible to apply the cosmetic composition with a constant force.

Therefore, in the following test, the application of the composition was carried out using a rheometer.

[Test Example 3] Selection of application frequency

1. Makeup products in solid state.

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. Then, the makeup cosmetic composition L2 of Reference Example 1 was applied to the application surface using a rheometer. Then, the friction force coefficient of the surface of the coating film according to the number of reciprocation of the coating surface during application was measured using a rheometer, and the results are shown in Table 3 below.

Round trip Friction (g) One 187.29 2 174.00 3 144.07 4 136.34 5 133.25 6 137.46 7 130.29 8 124.32 9 115.88 10 110.02

As can be seen in Table 3, one to three round trips show a phenomenon that the maximum stress continues to decrease, maintains a constant value for four to seven round trips, and decreases again after eight round trips. In the case of the composition in the solid state, it was judged to be suitable to apply eight round trips.

2. Makeup products in liquid state.

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. Then, about 0.1 g of the makeup cosmetic composition H1 in the liquid state of Reference Example 2 was raised to a length of about 2 cm on the coated surface, and the composition was applied to the coated surface using a rheometer. Then, the friction force coefficient of the coating film surface according to the frequency | count of reciprocation of the coating surface at the time of application | coating was measured using a rheometer.

As a result of the observation, the composition of the liquid state is pushed and accumulated due to the characteristics of the product, the coating film becomes thinner as the number of coating increases. Therefore, in the case of a liquid composition, it was judged that it is suitable to apply | coat once in reciprocation.

The results as described above are applied when judging the frictional force of the product for the compositions of Reference Example 1 and Reference Example 2, it is possible to determine the appropriate number of coatings in the same manner according to the characteristics of the target composition.

[Test Example 4] Cutting of the coated surface

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. Then, using the rheometer, the makeup cosmetic composition L2 of Reference Example 1 was applied twice to the application surface. Thereafter, the coated surface was cut using a knife for general stationery, scissors, a freezing section machine (Cryotome, CM1850-7-1 of LEICA (Germany)) and a scalpel.

As a result of confirming the cross section, when the cutting using a general knife and scissors, the cosmetic composition is buried on the knife and the cutting surface and the shape deformation of the artificial skin occurred. In the case of the freezing section machine, the artificial skin absorbs moisture from the water-soluble fixative (OCT compound) used in the process of fixing the sample for cutting, thereby deteriorating the coated product. On the other hand, in the case of a scalpel, when cutting at a high speed, unlike other methods, the scalpel can be cut at once, and the product comes out from the second half of the coated surface, but the amount of the composition is smeared on the scalpel and the cut surface is very small, and the contamination of the product on the coated surface is also very high. It is suitable for use in the present invention because it is small.

Test Example 5 Measurement Method Using Scanning Electron Microscope

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. Then, using the rheometer, the makeup cosmetic composition L2 of Reference Example 1 was applied twice to the application surface. Thereafter, the coated surface was cut with a scalpel, and the cut surface was fixed by using a piece made of a viscous layer of artificial skin, and the cut surface was photographed by SEM or an optical microscope (Nikon (Japan) 80i). The results are shown in FIG.

As shown in Figure 4, the optical microscope has the advantage that the color can be expressed, but the magnification is very low, it is difficult to distinguish the difference between the cross-section, high magnification is difficult to magnify the characteristics of the product is difficult. On the other hand, in the case of SEM, the results are displayed in black and white, so the characteristics of the color tone products in the makeup cosmetics are not better expressed, but the magnification is very high and the finer parts of the coating film can be expressed without problems. Since it is shown better, it can be clearly seen that the actual measured value is clearly different from the optical microscope.

Test Example 6 Coating Film Thickness Measurement of Solid Makeup Product (Lipstick)

As an application surface, artificial skin was prepared by cutting into a size of 4 cm * 5 cm, and the prepared application surface was attached to the holder of the rheometer. The solid lipstick product of Table 1 was then applied to the application surface eight times using a rheometer. Thereafter, the coated surface was cut with a scalpel and the cut coated surface was erected using a piece whose cross section was made of a viscous layer of artificial skin. The surface of the coated surface was coated with platinum and then the cut surface was photographed by SEM. Observation results are shown in FIG. 5. In addition, the average of 15 women aged 35 years old, L1 and L2 of the two products in Table 1 above were used and then used according to the usage, and the thickness (thickness1-thin5) and application characteristics (stiffness) when lipstick was applied. Sensory evaluation was conducted by scoring 1-smooth 5) and uniformity (lump 1-uniform 5). In addition, after the composition of Table 1 was applied to artificial skin using a rheometer, the friction force of the coating film was also measured using the rheometer, and the coating film thickness was also determined from the SEM imaging results. The sensory evaluation results, the frictional force, and the thickness of the coating film are shown in FIG. 6.

The feeling of thickness and spreadability in the sensory evaluation were similar to those of the coating film thickness and the frictional force, respectively.

Therefore, by using said method, the sensory evaluation result after application of the external preparation for skin can be visualized more objectively.

Test Example 7 Coating Film Thickness Measurement of Liquid Makeup Product (Foundation)

As an application surface, artificial skin was prepared by cutting the size of 4 cm * 5 cm, and the prepared application surface was attached to the rheometer. The liquid foundations H1 and M1 in Table 2 were then raised about 0.1 g on the coated surface, and then the stand was installed next to the rheometer to which the coating film was attached, the vibration puff was fixed to the stand, and the rheometer was operated to operate the foundation. Was apply | coated once to the coating surface. Thereafter, the coated surface was cut with a scalpel and the cut coated surface was erected using a piece whose cross section was made of a viscous layer of artificial skin. The surface of the coated surface was coated with platinum and then the cut surface was photographed by SEM. The observation result is shown in FIG.

In the case of liquid products, the liquid formulation is volatilized during the sample pretreatment, leaving only the solid phase. However, due to the nature of the product, the liquid was volatilized in human skin, and the measurement was made in consideration of the fact that only solid phase was observed.

Claims (3)

1) preparing a topical skin composition to be evaluated;
2) When the application tool is mounted on the rheometer, and the external composition of the external preparation for skin is solid, the external application composition is applied to the artificial skin eight times round, and when the external composition of the external preparation for skin is liquid, the external composition for external application Applying one round trip to the artificial skin;
3) cutting the artificial skin using a scalpel and observing the cross section by SEM; And
4) measuring the thickness of the artificial skin to which the composition is applied;
The evaluation method of the external composition for skin coating film thickness containing the. 1) preparing a topical skin composition to be evaluated;
2) When the application tool is mounted on the rheometer, and the external composition of the external preparation for skin is solid, the external application composition is applied to the artificial skin eight times round, and when the external composition of the external preparation for skin is liquid, the external composition for external application Applying one round trip to the artificial skin;
3) selecting an arbitrary point in the artificial skin, cutting the point using a scalpel, and observing the cross section by SEM;
4) measuring the thickness of the artificial skin to which the composition is applied; And
5) determining the deviation of the measured thickness;
Evaluation method of the external preparation composition coating film uniformity containing the. delete

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