阅读说明：本技术 一种化妆品用高光及其制备方法 (High gloss for cosmetics and preparation method thereof ) 是由 从云玲 于 2021-09-23 设计创作，主要内容包括：本申请涉及化妆品领域,具体公开了一种化妆品用高光及其制备方法,所述化妆品用高光,按质量百分比为100%计,由以下质量百分比的组分组成：A相珠光剂 18.85-27%,B相珠光剂8-16.15%,C相珠光剂5-11%,D相珠光剂4-9%,E相珠光剂4-8.5%,F相珠光剂2-6%,余量为其他助剂；所述A相珠光剂为氧化铝、氧化锡和二氧化钛的混合物,所述氧化铝、氧化锡和二氧化钛按质量比分别占A相珠光剂总量的57-79%、1-6%和20-37%；所述B相珠光剂为氧化铝、氧化锡和二氧化钛的混合物。本申请的高光具有良好的服帖性和光泽度。(The application relates to the field of cosmetics, and particularly discloses a cosmetic highlight and a preparation method thereof, wherein the cosmetic highlight comprises the following components in percentage by mass of 100 percent: 18.85-27% of phase A pearling agent, 8-16.15% of phase B pearling agent, 5-11% of phase C pearling agent, 4-9% of phase D pearling agent, 4-8.5% of phase E pearling agent, 2-6% of phase F pearling agent and the balance of other auxiliary agents; the A-phase pearlescent agent is a mixture of aluminum oxide, tin oxide and titanium dioxide, and the aluminum oxide, the tin oxide and the titanium dioxide respectively account for 57-79%, 1-6% and 20-37% of the total amount of the A-phase pearlescent agent in mass ratio; the B-phase pearlescent agent is a mixture of aluminum oxide, tin oxide and titanium dioxide. The highlight of the present application has good conformability and gloss.)

1. A cosmetic highlight, characterized by: the composite material comprises the following components in percentage by mass as 100 percent: 18.85-27% of phase A pearling agent, 8-16.15% of phase B pearling agent, 5-11% of phase C pearling agent, 4-9% of phase D pearling agent, 4-8.5% of phase E pearling agent, 2-6% of phase F pearling agent and the balance of other auxiliary agents;

the A-phase pearlescent agent is a mixture of aluminum oxide, tin oxide and titanium dioxide, and the aluminum oxide, the tin oxide and the titanium dioxide respectively account for 57-79%, 1-6% and 20-37% of the total amount of the A-phase pearlescent agent in mass ratio;

the B-phase pearlescent agent is a mixture of aluminum oxide, tin oxide and titanium dioxide, and the aluminum oxide, the tin oxide and the titanium dioxide respectively account for 46-65%, 1-11% and 34-43% of the total amount of the B-phase pearlescent agent in mass ratio.

2. A cosmetic highlight according to claim 1 characterized by: the other auxiliary agents comprise, by mass, 1-3% of a skin conditioner, 7-11.5% of cetyl ethyl hexanoate, 0-5% of a regulator and the balance of functional auxiliary agents, wherein the other auxiliary agents are calculated by mass percent of 100%.

3. A cosmetic highlight according to claim 1 characterized by: the C-phase pearling agent is a mixture of mica, titanium dioxide and iron oxide, and the mica, the titanium dioxide and the iron oxide respectively account for 45-69%, 15-28% and 16-27% of the total amount of the C-phase pearling agent.

4. A cosmetic highlight according to claim 1 or 3 characterized by: the D-phase pearlescent agent is a mixture of mica, titanium dioxide and tin oxide, and the mica, the titanium dioxide and the tin oxide respectively account for 77-88%, 9-22% and 1-3% of the total amount of the D-phase pearlescent agent.

5. A cosmetic highlight according to claim 1 or 4 characterized by: the E-phase pearling agent is a mixture of mica and titanium dioxide, and the mica and the titanium dioxide respectively account for 51-67% and 33-49% of the total amount of the E-phase pearling agent.

6. A cosmetic highlight according to claim 5 characterized by: the F-phase pearlescent agent is a mixture of synthetic fluorophlogopite, titanium dioxide and ferric oxide, and the synthetic fluorophlogopite, the titanium dioxide and the ferric oxide respectively account for 57-78%, 12-26% and 10-17% of the total amount of the F-phase pearlescent agent.

7. A cosmetic highlight according to claim 2 characterized by: the skin conditioner is Chondrus crispus.

8. A cosmetic highlight according to claim 2 characterized by: the regulator comprises caprylic capric triglyceride and gold foil powder, and the mass ratio of the caprylic capric triglyceride to the gold foil powder is (2.3-3.9): 1.

9. a preparation method of high gloss for cosmetics is characterized by comprising the following steps: the method comprises the following steps:

processing a pearling agent: respectively grinding and mixing the phase A pearling agent, the phase B pearling agent, the phase C pearling agent, the phase D pearling agent, the phase E pearling agent and the phase F pearling agent;

highlight preparation: mixing other adjuvants with the A phase pearling agent, the B phase pearling agent, the C phase pearling agent, the D phase pearling agent, the E phase pearling agent and the F phase pearling agent, filling the mixture into a model, cooling, demoulding and baking.

Technical Field

The application relates to the field of cosmetics, in particular to high gloss for cosmetics and a preparation method thereof

Background

The cosmetic is a fine chemical product, can be spread on skin, hair and other parts of human body surface by smearing, spraying and other modes, and further has the effects of cleaning, maintaining, beautifying, decorating, changing appearance and the like.

There are many kinds of cosmetics, such as blush, eye shadow, loose powder, and highlight, wherein the highlight is a cosmetic for enhancing the contour of a face by the principle of diffuse reflection after the face is on. For example, the nose is not high enough, the light is dotted on the bridge of the nose, and the nose is more three-dimensional.

However, the inventor finds that the high light generally causes agglomeration, floating powder and the like during the use process, and further damages the whole cosmetic surface.

Disclosure of Invention

In order to reduce agglomeration and floating powder of high gloss and improve the fitting degree of the high gloss, the application provides high gloss for cosmetics and a preparation method thereof.

In a first aspect, the present application provides a cosmetic highlight, which adopts the following technical scheme:

the high gloss for cosmetics comprises the following components in percentage by mass as 100 percent: 18.85-27% of phase A pearling agent, 8-16.15% of phase B pearling agent, 5-11% of phase C pearling agent, 4-9% of phase D pearling agent, 4-8.5% of phase E pearling agent, 2-6% of phase F pearling agent and the balance of other auxiliary agents;

the A-phase pearlescent agent is a mixture of aluminum oxide, tin oxide and titanium dioxide, and the aluminum oxide, the tin oxide and the titanium dioxide respectively account for 57-79%, 1-6% and 20-37% of the total amount of the A-phase pearlescent agent in mass ratio;

the B-phase pearlescent agent is a mixture of aluminum oxide, tin oxide and titanium dioxide, and the aluminum oxide, the tin oxide and the titanium dioxide respectively account for 46-65%, 1-11% and 34-43% of the total amount of the B-phase pearlescent agent in mass ratio.

By adopting the technical scheme, the pearling agent is divided into a plurality of phases, and the component types and the component distribution ratios of the pearling agents of the corresponding phases are controlled, so that the components in the pearling agents of all the phases can be better dispersed among each other due to the physical action among the components, such as the attractive force among molecules, the repulsive force among the molecules and the like, the dispersity of the pearling agent is improved, the caking or floating powder after high-gloss feeding can be reduced, and the high-gloss fitting degree is improved; and the smaller pearling agent particles can be uniformly distributed on the periphery of the larger pearling agent particles, and after the face is touched by highlight, the luster can be reflected at all angles, so that the glossiness of the highlight is improved, and the using effect of the highlight is further improved.

Preferably, the other auxiliary agents comprise, by mass, 1-3% of a skin conditioner, 7-11.5% of cetyl ethylhexanoate, 0-5% of a regulator and the balance of a functional auxiliary agent, wherein the mass percentage is 100%.

By adopting the technical scheme, the cetyl ethyl hexanoate is added into the highlight to play a thickening role, so that the highlight molding is facilitated; the cetyl ethyl hexanoate can play a role in softening and moistening, and can moisten the skin to promote the reduction of highlight floating powder or caking while improving the skin feel when people feel high-gloss on the face; the skin conditioner can improve the high-gloss skin feel and has a skin care effect; the regulator and the functional additive are added into the high light, so that the service performance of the high light can be further improved.

Preferably, the C-phase pearling agent is a mixture of mica, titanium dioxide and iron oxide, wherein the mica, the titanium dioxide and the iron oxide respectively account for 45-69%, 15-28% and 16-27% of the total amount of the C-phase pearling agent.

By adopting the technical scheme, experiments show that the prepared high gloss is better in fitness and glossiness by adopting the components in the proportion.

Preferably, the D-phase pearlescent agent is a mixture of mica, titanium dioxide and tin oxide, and the mica, the titanium dioxide and the tin oxide respectively account for 77-88%, 9-22% and 1-3% of the total amount of the D-phase pearlescent agent.

By adopting the technical scheme, experiments show that the prepared high gloss is better in fitness and glossiness by adopting the components in the proportion.

Preferably, the E-phase pearlescent agent is a mixture of mica and titanium dioxide, wherein the mica and the titanium dioxide respectively account for 51-67% and 33-49% of the total amount of the E-phase pearlescent agent.

By adopting the technical scheme, experiments show that the prepared high gloss is better in fitness and glossiness by adopting the components in the proportion.

Preferably, the F-phase pearlescent agent is a mixture of synthetic fluorophlogopite, titanium dioxide and iron oxide, wherein the synthetic fluorophlogopite, the titanium dioxide and the iron oxide respectively account for 57-78%, 12-26% and 10-17% of the total amount of the F-phase pearlescent agent.

By adopting the technical scheme, experiments show that the prepared high gloss is better in fitness and glossiness by adopting the components in the proportion.

Preferably, the skin conditioning agent is Chondrus crispus.

By adopting the technical scheme, the Chondrus crispus is a moisture-preserving component extracted from natural seaweed, and can reduce the phenomenon of high floating powder or agglomeration caused by dry skin; meanwhile, the Chondrus crispus can play a thickening role and is beneficial to the preparation of highlight.

Preferably, the regulator comprises caprylic capric triglyceride and gold foil powder, and the mass ratio of the caprylic capric triglyceride to the gold foil powder is (2.3-3.9): 1.

by adopting the technical scheme, the caprylic capric triglyceride is a moisturizing oil which is easily absorbed by the skin, and can reduce the dryness of the skin; the caprylic capric triglyceride has good spreadability, is smooth but not greasy, and can not cause high-light agglomeration while caring the skin; the gold foil powder has a strong oil absorption effect, and can absorb oil in time while reducing skin dryness and reduce high-gloss floating powder or caking when being matched with caprylic capric triglyceride for use.

In a second aspect, the present application provides a method for preparing a cosmetic highlight, which adopts the following technical scheme.

A preparation method of high gloss for cosmetics comprises the following steps:

processing a pearling agent: respectively grinding and mixing the phase A pearling agent, the phase B pearling agent, the phase C pearling agent, the phase D pearling agent, the phase E pearling agent and the phase F pearling agent;

highlight preparation: mixing other adjuvants with the A phase pearling agent, the B phase pearling agent, the C phase pearling agent, the D phase pearling agent, the E phase pearling agent and the F phase pearling agent, filling the mixture into a model, cooling, demoulding and baking.

By adopting the technical scheme, after each phase is respectively processed, the highlight is integrally prepared; in the preparation process, the dispersion effect of the pearling agent is adjusted, so that the agglomeration or floating powder of the high light can be reduced, the fitting degree of the high light is improved, and the glossiness of the high light can be improved.

In summary, the present application has the following beneficial effects:

1. the application divides the pearling agent into a plurality of phases, the pearling agent corresponding to the phases is used for controlling the component types and the component distribution ratios, and after the highlight is applied to the face, the gloss can be reflected at all angles, so that the glossiness of the highlight is improved, and the using effect of the highlight is further improved.

2. The caprylic capric triglyceride and the gold foil powder are added, so that the floating powder or caking of highlight can be further reduced;

3. the pearling agent is divided into a plurality of phases, the pearling agent of the corresponding phase is controlled by the component types and the component distribution ratio, and simultaneously, the high light is integrally prepared after each phase is respectively processed; the method can reduce the agglomeration or floating powder of the highlight, improve the fitting degree of the highlight, improve the glossiness of the highlight and further improve the using effect of the highlight.

Detailed Description

The present application will be described in further detail with reference to examples.

Highlight is a common color cosmetic product, and when the highlight is smeared on a face, the outline of the face can be brightened; common pearlescent agents in highlight are aluminum oxide, tin oxide, titanium dioxide, iron oxide, and the like; however, the inventor finds that after the face is glazed with high light, particularly after a period of time, the phenomena of caking, floating powder and the like occur, and the whole cosmetic face is damaged. Therefore, the inventor adopts the modes of adding an anti-caking agent, changing the type of the pearling agent, adjusting the content of the pearling agent, refining the granularity of the pearling agent and the like to improve the high light, and the high light has certain effect, but the phenomenon of caking or powder floating still occurs along with the increase of the time of the high light on the face.

The inventor finds in further research that the pearling agents are subjected to phase separation, the types and the proportions of the components in each phase of the pearling agent are adjusted, then each phase of the pearling agent is independently processed, and then each phase of the pearling agent is combined for processing, so that the obtained highlight has better fitness and glossiness, and the phenomena of caking or powder blocking and the like can be well controlled along with the increase of the time for the highlight to face; the inventor guesses that the physical combination of the components can be carried out in advance in the independent processing process of the pearling agents of the phases, so that the components can be better matched, and the high-gloss degree and glossiness can be improved.

Examples

Example 1

The three-dimensional highlight raw material comprises the following components: 23.85kg of phase A pearling agent, 11.92kg of phase B pearling agent, 7.16kg of phase C pearling agent, 7.15kg of phase D pearling agent, 5.961kg of phase E pearling agent and 4.18kg of phase F pearling agent.

The highlight raw material also comprises other auxiliary agents, wherein the other auxiliary agents are as follows: 2.44kg of skin conditioner, 9.77kg of cetyl ethyl hexanoate, 8.55kg of anti-caking agent, 0.63kg of preservative, 8.55kg of emulsifier, 7.33kg of adsorbent, 1.47kg of humectant, 0.98kg of solubilizer and 0.06kg of pH regulator.

In this example, the a phase pearlescent agent is: 18.12kg of alumina, 0.24kg of tin oxide and 5.49kg of titanium dioxide.

The B phase pearling agent is: 7.03kg of alumina, 0.24kg of tin oxide and 4.65kg of titanium dioxide.

The phase C pearling agent is: 4.23kg of mica, 1.36kg of titanium dioxide and 1.57kg of iron oxide.

The D-phase pearlescent agent is: 6.11kg of mica, 1.00kg of titanium dioxide and 0.04kg of tin oxide.

E-phase pearlescent agent: 3.75kg of mica and 2.21kg of titanium dioxide.

Phase F pearling agent: 2.85kg of synthetic fluorophlogopite, 0.75kg of titanium dioxide and 0.58kg of ferric oxide.

The skin conditioner is Chondrus crispus; the emulsifier is PEG-8C 12-20 acid; the adsorbent is silica of 60-70 nm; the humectant is butanediol; the solubilizer is polysorbate-80; the pH regulator is calcium hydrogen phosphate.

The anti-caking agent comprises: 8.38kg of HDI/trimethylol hexyl lactone cross-linked polymer and 0.17kg of silica of 80-90 nm.

The preservative is as follows: 0.40kg of phenoxyethanol, 0.21kg of caprylyl glycol and 0.02kg of sodium dehydroacetate.

A preparation method of three-dimensional highlight comprises the following steps:

the raw material ratio is as follows: the components are proportioned according to the content of the raw materials.

Processing a pearling agent:

adding ethanol into a ball mill, adding the components of the phase A pearling agent into the ball mill, and carrying out wet grinding and mixing until the particle size of each component of the phase A pearling agent is 80-100 nanometers.

Adding ethanol into a ball mill, adding the components of the B-phase pearling agent into the ball mill, and carrying out wet grinding and mixing until the particle size of each component of the B-phase pearling agent is 80-90 nanometers.

Adding ethanol into a ball mill, adding the components of the C-phase pearling agent into the ball mill, and carrying out wet grinding and mixing until the particle size of each component of the C-phase pearling agent is 60-90 nanometers.

Adding ethanol into a ball mill, adding the components of the D-phase pearling agent into the ball mill, and carrying out wet grinding and mixing until the particle size of each component of the D-phase pearling agent is 60-75 nanometers.

Adding ethanol into a ball mill, adding the components of the E-phase pearling agent into the ball mill, and carrying out wet grinding and mixing until the particle size of each component of the E-phase pearling agent is 80-100 nanometers.

Adding ethanol into a ball mill, adding the components of the F-phase pearlescent agent into the ball mill, and carrying out wet grinding and mixing until the particle size of the components of the F-phase pearlescent agent is 70-90 nanometers.

Highlight preparation: mixing other adjuvants with the A phase pearling agent, the B phase pearling agent, the C phase pearling agent, the D phase pearling agent, the E phase pearling agent and the F phase pearling agent after grinding and mixing, then pouring the mixture into a model, cooling to 12 ℃, demoulding, and baking at 56 ℃ to obtain the high-gloss product.

Examples 2 to 17

Examples 2-5 differ from example 1 in the proportions of the high gloss starting materials, as shown in Table 1.

TABLE 1

Examples 6 to 10 differ from example 1 in the ratio of the highlight raw materials and the ratio of the components in the pearling agent of each phase in the corresponding pearling agent, as shown in table 2.

TABLE 2

Examples 11 to 17 are different from example 1 in the ratio of the raw materials of the highlight, and the ratio of the pearling agent of each phase in the highlight is not changed, which is shown in tables 3 and 4.

TABLE 3

TABLE 4

Example 18

Example 18 differs from example 1 in that: the content of the phase a pearlescent agent in this example is 18.85kg, and meanwhile, this example further includes 5kg of a regulator, the regulator includes caprylic capric triglyceride and gold foil powder, the mass ratio of caprylic capric triglyceride to gold foil powder is 3.2: 1.

example 19

Example 19 differs from example 1 in that: the content of the phase a pearlescent agent in this example is 20.35kg, and meanwhile, this example further includes 3.5kg of a regulator, the regulator includes caprylic capric triglyceride and gold foil powder, the mass ratio of caprylic capric triglyceride to gold foil powder is 3.2: 1.

example 20

Example 20 differs from example 1 in that: the content of the phase a pearlescent agent in this example is 21.85kg, and meanwhile, this example further includes 2kg of a regulator, the regulator includes caprylic capric triglyceride and gold foil powder, the mass ratio of caprylic capric triglyceride to gold foil powder is 3.2: 1.

example 21

Example 21 differs from example 15 in that: the mass ratio of the caprylic capric triglyceride to the gold foil powder is 2.3: 1.

example 22

Example 22 differs from example 15 in that: the mass ratio of the caprylic capric triglyceride to the gold foil powder is 3.9: 1.

example 23

Example 23 differs from example 15 in that: the mass ratio of the caprylic capric triglyceride to the gold foil powder is 1.8: 1.

example 24

Example 24 differs from example 15 in that: the mass ratio of the caprylic capric triglyceride to the gold foil powder is 4.2: 1.

example 25

Example 25 differs from example 15 in that: the gold foil powder is replaced by equal amount of rice paper powder, the rice paper powder is obtained by grinding rice paper, and the particle size of the rice paper powder is 60-80 nanometers.

Examples 26 to 31:

examples 26-31 differ from example 1 in that: the content of each component of the C-phase pearling agent is different; the content of each component of the D-phase pearling agent is different; the content of each component of the phase F pearling agent is different. Meanwhile, the proportion of each phase of pearlescent agent in high light is unchanged, and the specific content is shown in table 5:

TABLE 5

Comparative examples 1 to 4

Comparative examples 1 to 4 differ from example 1 in that: the content of each component of the phase A pearlescent agent of comparative example 1 is different, and the proportion of each component of the phase A pearlescent agent in high light is unchanged. Comparative examples 3 to 4 differ from example 1 in that: the content of each component of the B-phase pearlescent agent in the comparative example 1 is different, and the proportion of each component of the B-phase pearlescent agent in high light is unchanged. See table 6 for details.

TABLE 6

Comparative example 5

Comparative example 5 differs from example 1 in that: the highlight preparation method of comparative example 5 comprises the following steps: grinding and mixing all the high-gloss raw materials together, wherein the particle size of the particles is 70-80 nanometers, then pouring the mixture into a model, cooling, demoulding and baking to obtain the high-gloss product.

Comparative example 6

The highlight for cosmetics is prepared from the following raw materials in parts by weight: 25.2kg of alumina, 0.51kg of tin oxide, 14.5kg of titanium dioxide, 7.5kg of silica, 14.1kg of mica, 2.2kg of iron oxide, 9.8kg of cetyl ethyl hexanoate, 8.4kg of HDI/trimethylol hexyl lactone crosspolymer, 1.5kg of butanediol, 800.9kg of polysorbate, 0.4kg of phenoxyethanol, 0.1kg of calcium hydrogen phosphate and 0.02kg of sodium dehydroacetate. The preparation method of the highlight in the comparative example comprises the steps of grinding and mixing all the raw materials at one time until the particle size of each component is 30-90 nanometers, then pouring the mixture into a model, cooling to 12 ℃, demolding, and baking at 56 ℃ to obtain the highlight product.

Performance test

The highlights of examples 1-31 and comparative examples 1-6 were measured for conformity and gloss, as follows.

30 women 18-24 years old, 30 women 25-30 years old, 30 women 31-35 years old, 30 women 36-40 years old, and 10 each of dry skin, mixed skin, and oily skin were invited in each age group.

30 men 18-24, 30 men 25-30, 30 men 31-35, 30 men 36-40 were invited, and 10 each of dry skin, mixed skin and oily skin were invited in men of each age group.

The above-mentioned persons were allowed to score using the highlights of examples 1 to 31 and comparative examples 1 to 6 in a room at 28 ℃ as follows, and the average score of the highlights of examples 1 to 31 and comparative examples 1 to 6 was calculated, and one decimal place after the average score was taken and recorded in table 7.

Degree of fit:

no caking or floating powder: 10 minutes; slightly caking or dusting: 9-10 points (excluding 10 points), heavier lumps or aerosols: 8-9 (excluding 9 points); severe caking or dusting: 7-8 (excluding 8 points).

Gloss:

the luster is natural: 10 minutes; the luster is strong: 9-10 points (excluding 10 points), low gloss: 8-9 (excluding 9 points), very low gloss: 7-8 (excluding 8 points).

TABLE 7

From the test results of examples 1 to 5 and comparative example 6, it is clear that the gloss of the present application is good after 12 hours, and the addition of the anti-blocking agent improves the degree of fit of the gloss. The high light of the embodiment 5 is adopted, and the performance is optimal.

For the highlights of examples 6 to 10, the ratio of each component in each phase of pearlescent agent in the corresponding phase of pearlescent agent in the highlight is not changed, but the ratio of the corresponding phase of pearlescent agent in the highlight is changed, and the change of the ratio of the corresponding phase of pearlescent agent in the highlight is found to have a certain influence on the highlight performance, but has a small influence.

For the highlights of examples 11 to 17, the ratio of each component in each phase of pearlescent agent in the corresponding phase of pearlescent agent was changed, and the ratio of the corresponding phase of pearlescent agent in the whole highlight is not changed, and it can be known from the detection results that the change of the ratio of each component in each phase of pearlescent agent in the corresponding phase of pearlescent agent has a certain influence on the highlight performance, and the influence is large. Moreover, the change of the ratio of the components in the phase A pearling agent and the phase B pearling agent has larger influence on high optical performance.

The test results of the examples 18 to 25 show that the addition of the caprylic/capric triglyceride and the gold foil powder in the present application can improve the high gloss of the patch, and the mass ratio of the caprylic/capric triglyceride to the gold foil powder is (2.3-3.9): 1, the effect of highlight is better, with the best performance of example 19.

In examples 25 to 31, the ratio of the respective components of the C-phase pearlescent agent, the D-phase pearlescent agent and the F-phase pearlescent agent in the respective phases of pearlescent agents was changed, and as can be seen from the results of the tests in examples 25 to 31, the high light performance was better when mica, titanium dioxide and iron oxide in the C-phase pearlescent agent were respectively 45 to 69%, 15 to 28% and 16 to 27% of the total amount of the C-phase pearlescent agent. In the D-phase pearling agent, when mica, titanium dioxide and tin oxide respectively account for 77-88%, 9-22% and 1-3% of the total amount of the D-phase pearling agent, the high light performance is better. In the F-phase pearling agent, when the synthetic fluorophlogopite, the titanium dioxide and the ferric oxide respectively account for 57-78%, 12-26% and 10-17% of the total weight of the F-phase pearling agent, the high optical performance is better.

From the test results of comparative examples 1 to 4, it is understood that when the ratio of the whole of the phase a pearlescent agent and the phase B pearlescent agent is constant but the ratio of the components in each phase pearlescent agent is changed, the high gloss performance is affected and the effect of the phase a pearlescent agent is large; meanwhile, as can be seen from comparative example 5, the highlight obtained by the preparation method of the present application has good fitness and glossiness.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.