JP2016180683A - Evaluation method of 'moist feeling' in powder cosmetic - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that there is no example for evaluating 'moist feeling' of a powder cosmetic and a powder raw material for the cosmetic by an objective index, though the powder cosmetic and the powder raw material for the cosmetic to which 'moist feeling' is imparted has a preferable feeling of use and also has a high market value, generally in a perfumery field.SOLUTION: There is provided a method for evaluating 'moist feeling' which is one factor of a feeling characteristic in a powder cosmetic and a powder raw material for the cosmetic, correlatively as a physical property index with shear adhesion stress τobtained from a specific powder layer shear force measurement.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a powder cosmetic and a method for objectively evaluating “moist feeling” which is a factor of touch characteristics in a powder raw material for cosmetics.

  In general, skin care and makeup cosmetics are applied by the user directly to the skin from the container. And since cosmetics are used every day, it can be said that not only the functionality but also the feeling of use (feel) are extremely important factors in the makeup effect.

  Methods for evaluating the feel characteristics of cosmetics and raw materials are roughly classified into sensory evaluation and physical property evaluation. While sensory evaluation has the merit that it is an evaluation close to actual use, it is a subjective evaluation, so it is greatly influenced by skin condition and psychological state in addition to individual differences due to evaluator's sensitivity. . For this reason, there has been a strong demand for techniques such as evaluation methods and display methods based on objective indices using physical equipment without relying solely on sensory tests.

  Conventionally, as one of methods for evaluating the feel characteristics of cosmetics and raw materials, an evaluation method based on an objective index by surface friction measurement has been studied. For example, in emulsified cosmetics such as creams, and oily raw materials, feel characteristics obtained from sensory evaluation such as “nobi”, “smoothness”, “moist feeling”, and average friction coefficient (MIU) obtained from surface friction measurement And / or correlation with friction characteristics such as coefficient of variation (MMD) of the average friction coefficient has been studied (see Patent Document 1, Non-Patent Documents 1 and 2). On the other hand, in powder cosmetics such as powder foundations and powder raw materials for cosmetics, the focus is often on the evaluation of so-called “slipperiness” such as “nobi” and “smoothness”. There is no example mentioning the correlation.

  It is easy to imagine that emulsified cosmetics such as cream, and oily raw materials contain moisture and oil, and thus directly feel “moist”. On the other hand, powder cosmetics such as powder foundations and powder raw materials for cosmetics often have “moist feeling” as one factor of touch characteristics, although they are not impregnated with moisture or oil.

  One method for producing a powder cosmetic is a wet filling molding method in which a powder and a solvent are mixed to form a slurry, and then pressed and dried. The powder cosmetics molded by this wet filling molding method are generally said to have a very smooth and moist feeling.

  In the powder raw material, there has been reported an example in which a “moist feeling” is given by examining the blending amount and type of the surface treatment agent (see Patent Documents 2 and 3).

  In the field of cosmetics, powder cosmetics that have been given a “moist feeling” and powder raw materials for cosmetics generally have a preferable feeling of use that is reminiscent of the feeling of use in cosmetics, emulsions, creams, etc. of basic cosmetics. Very high market value.

  Based on these backgrounds, an objective index of “moist feeling” using physical equipment is demanded also in powder cosmetics and powder raw materials for cosmetics.

JP 2003-24282 A JP 2001-181136 A Japanese Patent No. 4145681

J. et al. Soc. Cosmet. Chem. Japan. Vol. 32, no. 1,59-64 (1998) Performance evaluation of oil-based agent using friction tester 28th IFSCC Conference, 2014 Objective evaluation system of the cleaning oil

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a method for objectively evaluating “moist feeling” in powder cosmetics and powder raw materials for cosmetics using physical equipment. And

In such a situation, the inventors of the present application have made extensive studies to solve the above problems, and as a result, the shear adhesion stress τ _c obtained from the specific powder layer shear force measurement and the “moist feeling” obtained from the sensory evaluation. It was found that there is a high correlation between the two, and the present invention has been completed.

That is, according to the present invention, in powder cosmetics and powder materials for cosmetics, “moisture sensation”, which is a factor of touch characteristics, is measured by measuring a powder layer shear force by a specific method (normal stress σ and shear stress τ are Providing a method for evaluating by associating the shear bond stress τ _c obtained from the method of plotting the shear stress obtained simultaneously when the normal stress is continuously attenuated in the constant volume state after reaching the steady state as a physical property index To do.

In the present invention, the “moist feeling” is originally felt by touching something wet with water or oil, but the “moist feeling” of the powder expressed even though it is not actually wet is objective. Therefore, the shear adhesion stress τ _c obtained from the powder layer shear force measurement by a specific method is related as a physical property index.

Outline of powder bed shear force measuring device

  Hereinafter, the evaluation method of the feeling of use of the powder cosmetic of the present invention and the powder raw material for cosmetics will be described based on preferred embodiments thereof. According to the present invention, it is possible to objectively evaluate “moist feeling” which is one of the feeling of use when the powder cosmetic and the powder raw material for cosmetics are applied to the skin. Here, “moist feeling” with respect to the powder cosmetic and the powder raw material for cosmetics refers to a feeling of moisturizing feeling that moisturizes the skin and a feeling that the powder is lightly moist with moisture and oil.

The method for evaluating the “moist feeling” of the powder cosmetic of the present invention and the powder raw material for cosmetics is to measure the shear force of the powder layer using the powder to be evaluated, and to determine the shear stress corresponding to the normal stress σ. The “moist feeling” of the powder cosmetic and the powder raw material for cosmetics is evaluated based on the shear bond stress τ _c (τ value when σ = 0) obtained by plotting τ.

In the embodiment of the present invention, the shear adhesion stress τ _c obtained from the powder layer shear force measurement according to the following procedure is evaluated as a physical property index.
(1) Powder is filled inside a cylindrical cell (upper fixed cell, lower movable cell), and vertical stress is gradually applied at a constant rate.
(2) After reaching the specified value of the normal stress, the normal stress load is stopped and a relaxation time of the powder layer is provided in a constant volume state.
(3) After sufficient stress relaxation has occurred, a horizontal external force is applied to the cell at a constant speed.
(4) After the shear reaches a steady state (a state in which the values of the vertical stress and the shear stress are constant), the vertical stress is gradually attenuated while maintaining the external force in the horizontal direction.
(5) In the damping process, the shear stress τ (vertical axis: y-axis) corresponding to each vertical stress σ (horizontal axis: x-axis) obtained by detecting the vertical stress and shear stress is plotted, and the shear adhesion Stress τ _c (τ value at σ = 0) is obtained.

The shear adhesion stress τ _c obtained according to the above procedure is relatively compared, and it is determined that the “moist feeling” is higher as the value is larger.

  In the operation of applying the cosmetic with the fingertip, since a delicate force is applied to the fingertip, the vertical stress of the fingertip is also low. For this reason, in order to accurately measure, in the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the vertical stress to be applied was not the indentation load that actually pushed the powder inside the cell, but was indented. Thus, it is preferable to control the bottom load, which is the net load applied to the powder, by the load cell. If it is detected by the bottom surface load, it is possible to eliminate the influence of the pressure deficiency due to the cell wall friction and to define the actual load applied to the powder layer.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the specified value of the vertical stress applied in the procedure (1) is not particularly limited, but is preferably in the range of 20 to 125 kPa. When the vertical stress is 20 kPa or less, the formation of the powder layer may not be sufficient, and when it is 125 kPa or more, it is very much compared to the fingertip pressure when humans actually perform sensory evaluation of powder cosmetics and powder raw materials for cosmetics. Since the measurement is performed under high pressure, the correlation may be low.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the relaxation time provided in step (2) is not particularly limited, but is preferably in the range of 50 to 100 sec. If the relaxation time is 50 sec or less, stress relaxation may not be sufficient, and accurate measurement may not be possible. If the relaxation time is 100 sec or less, sufficient stress relaxation can be obtained.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the traveling speed of the external force applied in the horizontal direction in step (3) is not particularly limited, but is preferably in the range of 10 to 100 μm / sec. When the traveling speed is 100 μm / sec or more, there are cases where the shear rate is too high to maintain an appropriate powder layer area and accurate measurement cannot be performed. If the speed is 10 μm / sec or more, the powder layer can be efficiently sheared while maintaining an adequate powder layer area.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the inner diameter of the columnar cell (columnar upper fixed cell and columnar lower movable cell) is not particularly limited, but should be in the range of 3 to 43 mm. Is preferred. If the inner diameter of the cylindrical cell is 3 mm or less, an appropriate powder layer area may not be maintained during shearing. If it is 43 mm or more, the amount of sample to be used increases, and further effects on the maintenance of the powder layer area can be expected. Absent.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the depth of the cylindrical lower movable cell is not particularly limited, but is preferably in the range of 1 to 5 mm. If the depth of the cylindrical lower movable cell is 1 mm or less, an appropriate powder layer area may not be maintained at the time of shearing. If the depth is 5 mm or more, the amount of sample to be used increases and the powder layer area is further maintained. The effect is not expected.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the thickness of the powder layer shear zone (the gap between the cylindrical upper fixed cell and the cylindrical lower movable cell) is not particularly limited, but is 0.1 to 0.00. A range of 3 mm is preferable. If the thickness of the powder layer shear band is 0.3 mm or more, it may not be possible to shear while maintaining a certain powder layer shear band. If the thickness is 0.1 mm or less, further effects on the retention of the powder layer shear band can be expected. Absent.

  In the evaluation of the feeling of use of the powder cosmetic and the powder raw material for cosmetics, the data acquisition speed of each stress is not particularly limited, but is preferably in the range of 1 to 500 msec. When the data acquisition speed is 500 msec or more, a sufficient number of plots may not be obtained. If the data acquisition speed is 1 msec or more, a sufficient number of plots can be obtained.

The shear adhesion stress τ _c can be measured using a powder layer shear force measuring apparatus as shown in FIG. As described above, this apparatus is characterized in that the vertical stress is detected by the bottom load. In addition to this apparatus, for example, measurement can also be performed using a commercially available powder layer shear force measuring apparatus NS-S500 (manufactured by Nano Seeds). The room temperature and relative humidity when the powder layer shear force measurement is performed are preferably 10 to 35 ° C. and 30 to 65% RH in consideration of the environment when the cosmetic is used.

  Hereinafter, the present invention will be described in more detail with reference to examples. In addition, these do not limit this invention at all.

Example 1
[Evaluation of the physical properties]
About the powder raw materials AC for cosmetics shown in Table 1, the powder layer shear force measurement was implemented as follows, and shear adhesion stress (tau) _c was obtained.
Measuring device: Powder layer shear force measuring device (prototype manufactured by Nano Seeds)
Measurement conditions: indoor temperature 25 ° C., relative humidity 50% RH
Cylindrical upper fixed cell (inner diameter 43mm)
Cylindrical lower movable cell (depth 5mm)
Powder layer shear zone thickness 0.2mm
Vertical traveling speed 200μm / sec
Horizontal traveling speed 10μm / sec
Data capture speed 100msec
Initial vertical stress of 120 kPa applied in step (1)
Relaxation time 100 sec
[sensory evaluation]
The “moist feeling” of the powder raw materials A to C shown in Table 1 is subjected to a use test by eight specialist panels, and each panel member evaluates it according to the following 5 absolute ratings and gives a score. From the total score of all the panels, the average value was calculated as a sensory evaluation value.
1: very low 2: low 3: standard 4: high 5: very high

(Table 1)

In Table 1 above, a high correlation was observed between the shear adhesion stress τ _c obtained from the powder layer shear force measurement and the “moist feeling” obtained from the sensory evaluation.

(Example 2)
[Evaluation of the physical properties]
For the powder cosmetic models D and E shown in Table 2, the powder layer shear force measurement was performed as follows to obtain the shear adhesion stress τ _c .
Measuring device: Powder layer shear force measuring device (prototype manufactured by Nano Seeds)
Measurement conditions: indoor temperature 25 ° C., relative humidity 50% RH
Cylindrical upper fixed cell (inner diameter 43mm)
Cylindrical lower movable cell (depth 5mm)
Powder layer shear zone thickness 0.2mm
Vertical traveling speed 200μm / sec
Horizontal traveling speed 10μm / sec
Data capture speed 100msec
Initial vertical stress 60 kPa applied in step (1)
Relaxation time 100 sec
[sensory evaluation]
About the "moist feeling" of the powder cosmetic models D and E shown in Table 2, a use test was conducted by eight professional panels in the same manner as described above, and sensory evaluation values were calculated.

(Table 2)

Also in Table 2 above, the sensory evaluation result that the powder cosmetic model E containing isotridecyl isononanoate has a higher “moisture feeling” was obtained, and the shear adhesion stress τ _c was also correspondingly high. . Therefore, a correlation was recognized between the shear bond stress τ _c and the “moist feeling”.

The evaluation method of the present invention relates “moist feeling”, which is a factor of touch characteristics in powder cosmetics and powder raw materials for cosmetics, to a shear property stress τ _c obtained from powder layer shear force measurement as a physical property index. Can be evaluated. If the evaluation method of this invention is used, it can utilize for the efficient and effective development of powder cosmetics, provision of suitable cosmetics, and the advice.

Claims (2)

In powder cosmetics and powder raw materials for cosmetics, “moist feeling”, which is a factor of touch characteristics, is evaluated by using the shear adhesion stress τ _c obtained from powder layer shear force measurement according to the following procedure as a physical property index. Method. The obtained shear bond stress τ _c is relatively compared, and it is determined that the “moist feeling” is higher as the value is larger.
(1) Powder is filled inside a cylindrical cell (upper fixed cell, lower movable cell), and vertical stress is gradually applied at a constant rate.
(2) After reaching the specified value of the normal stress, the normal stress load is stopped and a relaxation time of the powder layer is provided in a constant volume state.
(3) After sufficient stress relaxation has occurred, a horizontal external force is applied to the cell at a constant speed.
(4) After the shear reaches a steady state (a state in which the values of the vertical stress and the shear stress are constant), the vertical stress is gradually attenuated while maintaining the external force in the horizontal direction.
(5) In the damping process, the shear stress τ (vertical axis: y-axis) corresponding to each vertical stress σ (horizontal axis: x-axis) obtained by detecting the vertical stress and shear stress is plotted, and the shear adhesion Stress τ _c (τ value at σ = 0) is obtained. 2. The evaluation method according to claim 1, wherein the range of the normal stress applied in (1) of the procedure is 20 to 125 kPa.