RU2128837C1 - Method for evaluating hair condition - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves measuring information-significant parameter of hair sample under test. The measured parameter is used for quantitative evaluation of hair properties. Hair state is determined by the degree of hair-swelling in water. Hair sample of at least 18 mm length is used for measurements. Hair sample thickness is measured in dry state and after its achieving maximum saturation with water. Hair swelling degree in water is determined from measured thickness data. Swelling degree (H) is calculated from formula H=(h_S-h_I)/h_I

Description

 The invention relates to the field of cosmetology, and in particular to methods for assessing the condition of hair that can be used to select cosmetics for hair care.

 It is known that exposure to hair by atmospheric factors, cosmetics, haircuts, combing leads to a change in their morphological, biochemical, physical and mechanical properties.

 Currently, the urgent task is to create objective methods for assessing the condition of hair using quantitative characteristics of the above properties.

 There are a number of methods for assessing the state of hair, based on the quantitative determination of the chemical composition of the hair material.

 So, there is a method for assessing the condition of hair, namely, the degree of damage under the influence of cosmetics, based on the quantitative determination of free sulfohydryl (SH) groups in the hair material [1].

 Assessment of the degree of hair damage is carried out on a calibration scale that contains the value of the degree of hair damage corresponding to the percentage increase in the number of free SH-groups after hair treatment with a cosmetic product.

 The method under consideration is highly specific, since in essence it only allows you to evaluate the damaging effect on the hair material of chemical agents contained in a specific cosmetic product. That is, the method is not intended to assess the complex properties of hair. In addition, the method is laborious and time consuming.

 Known methods for assessing the properties of hair, based on the determination of the elastic properties of the hair, for example, by measuring the stretching of the hair fibers [2].

 Measuring the stretching of hair fibers provides important information for describing and quantifying the condition of hair. Normal, that is, undamaged, hair exhibits a certain typical degree of stretching, and deviations from the correlation between the tension force and the degree of stretching of the hair fibers corresponding to the normal condition of the hair indicate a violation of the normal hair structure.

 According to the method, the stress indicators are measured at 15, 25, 40% tension and the indices of rupture and brittleness of hair fibers. A hair sample is obtained by gluing individual hair fibers to achieve a total hair filament length of about 13 m, using hair fragments sifted through a sieve to form a thread uniform in thickness. Measurements are carried out for these hair samples in dry and wet conditions. Processing the obtained data is carried out using a personal computer. According to the results of processing measurements, the condition of the hair, the type of hair, the degree of damage is judged.

 The method allows to evaluate a number of physical and mechanical properties of the hair, however, it requires a long and laborious preparation of a hair sample, a large number of measurements and complex processing of the obtained data.

 A known method for assessing the condition of the hair, based on a quantitative determination of stiffness or resistance to deflection of the hair fibers, which is selected by the authors for the prototype [3].

 The stiffness is quantified by measuring the distance between two branches of a hair fiber thrown over a wire hook and loaded with loads of the same mass at both free ends. The average value of several measurements characterizes the stiffness index. Using the measured linear parameter, quantitative indicators of the elastic properties of the hair (in particular, the elastic modulus, stiffness coefficient) are calculated, which are used to judge the condition of the hair.

 The considered method allows to evaluate the complex of physico-mechanical and consumer properties of hair. In this case, unlike stretching, the bending of the hair fiber includes both stretching and compression of the fiber with the greatest deformation near the peripheral points of the fiber cross section and, thus, to a greater extent characterizes the properties and structure of the outer part (surface layer) of the hair fiber. In this regard, the quantitative characteristics of hair stiffness may be more informative parameters than the characteristics of stretching, in relation to determining the effect of hair treatment with cosmetics, most of which affect mainly the surface layer of the hair fiber. In addition, the method is simple from the point of view of sample preparation and measuring a linear information-significant parameter.

 The objective of the proposed technical solution is to create a simple and convenient way to quantify the condition of the hair.

где h_исх - толщина образца волоса в сухом состоянии, мм;
h_н - толщина образца волоса после предельного насыщения водой, мм.The essence of the claimed invention lies in the fact that in the method of assessing the condition of the hair by quantitative characteristics of the properties of the hair, including measuring the information-significant parameter of the test hair sample and then determining the quantitative characteristics of the properties of the hair using the measured parameter, the condition of the hair is assessed by the degree of swelling of the hair in water, at the same time, a hair sample with a length of at least 18 mm is used for measurement, the thickness of the hair sample is measured in the dry state and after the maximum saturation water and determine the degree of swelling of the hair in water using the measured thickness, and the degree of swelling H of the hair sample is calculated by the formula

where h _ref is the thickness of the hair sample in a dry state, mm;
h _n - the thickness of the hair sample after the limiting saturation with water, mm

где h_исх - толщина образца волоса в сухом состоянии, мм;
h_н - толщина образца волоса после предельного насыщения водой, мм.New in the method is that the condition of the hair is assessed by the degree of swelling of the hair in water, while a hair sample is used for measuring at least 18 mm long, the thickness of the hair sample is measured in the dry state and after its saturation with water, and the degree of hair swelling in water is determined using the measured thickness, and the degree of swelling H of the hair sample is calculated by the formula

where h _ref is the thickness of the hair sample in a dry state, mm;
h _n - the thickness of the hair sample after the limiting saturation with water, mm

 The main distinguishing feature of the proposed method is the choice as a quantitative indicator of the properties of the hair, the degree of their swelling in water.

 Hair properties are determined by structural features, including the features of their molecular, intermolecular and surface structures. The presence in the structure of the hair fiber of voids, channels, pores determines the ability of the hair to swell in liquid media, in particular in water. In this regard, the swelling of hair in water characterizes the structure of the hair, while the degree of swelling can serve as a quantitative indicator of the state of the hair structure. Treatment with a cosmetic agent affects the structure of the hair and can lead to significant changes in the nature of both intermolecular and intramolecular bonds, and therefore, the degree of hair swelling in water treated with a cosmetic agent can be used to judge the effect of this agent on hair. In addition, when the hair comes in contact with water, water molecules interact with the molecules of the substances that make up the hair material, so the swelling value can characterize the state of chemical and intermolecular bonds of the structural units of the hair fiber material.

 Experimental studies by the authors showed that the degree of hair swelling in water is a highly informative indicator that allows a comprehensive assessment of the condition of the hair of a particular person and to develop individual recommendations when choosing hair care products.

 As it turned out, the length of the hair sample is essential for the correct assessment of the degree of hair swelling in water. In too short samples, mainly channel swelling occurs, and the calculation of the degree of swelling gives distorted information about the actual swelling of the hair fibers in water. When studying the kinetics of swelling in water of fragments of hair fibers of various lengths, it was experimentally established that for a correct assessment of swelling it is necessary to take hair samples with a length of at least 18 mm.

 In the simplest way, the swelling of hair in water can be determined by the relative increment of the thickness of the hair samples after saturation with water. Moreover, the choice of the thickness of the hair sample as a measured parameter, which is a linear value, provides simplicity and convenience of measurement, and the determination of the degree of hair swelling in water by the relative increment of the linear parameter ensures high accuracy of the calculation results.

 The method is as follows. For the test, hair fibers of uniform thickness are selected, the thickness of which differs by no more than 3 microns. The thickness of the hair is determined using a microscope equipped with a measuring grid. The hair samples intended for testing are laid on a plywood board covered with paper, the color of which contrasts with the color of the hair, single fragments of at least 18 mm long are cut with a razor. For the convenience of manipulating hair samples, it is advisable to use fragments of 18 - 20 mm length.

 Each single fragment is transferred using a dissecting needle onto a glass slide, after which the laid hair samples are covered with a coverslip.

 The thickness of the prepared samples is measured in the dry state. Measurements are carried out by the projection (shadow) method in transmitted light in the field of view of the microscope sighting system. In this case, the thickness of each sample is measured in a strictly fixed place.

 Using a glass rod or pipette, distilled water is introduced under the coverslip. Samples are kept until they are saturated with water. The thickness of each sample extremely saturated with water is again measured, and the thickness is measured in the same place as that of a dry sample.

 The degree of swelling in water of a hair sample is determined by the formula (1).

 For a series of tested samples, the arithmetic mean of the degree of swelling of the hair in water is determined.

 The state of the hair is judged by the degree of swelling, and they are guided by the scale obtained as a result of experimental studies, according to which hair with normal consumer properties and an intact structure have a degree of swelling in water within 12-17%.

 The degree of swelling of more than 17% indicates the presence of violations in the structure of the hair associated with an increase in their porosity after exposure to various cosmetics. Such a hair structure is defective, and therefore more susceptible to the negative effects of various external factors (precipitation, mechanical stress, such as combing, cutting, styling).

сухих образцов представлены в таблице.Example 1. For the test took natural blonde hair of the European type. Fiber ± 3 μm thick was selected using a UIM-23 microscope. Single fragments of hair samples 20 mm long were cut. At least 20 fragments were taken for the test, each fragment was placed between the slide and the coverslip, and the thickness of each fragment was measured in the middle of its length. The resulting thickness values

dry samples are presented in the table.

Glasses with fragments of dry hair were placed in the nests of a special cartridge, which was installed in an ultra-thermostat and kept at (20 ± 1) ^o C for 30 minutes.

Glass with samples was removed from the thermostat and distilled water with a temperature of (20 ± 1) ^o C was introduced under a coverslip using a glass rod until the space between the glasses was completely filled with water.

представлены в таблице.Samples were thermostated in an ultra-thermostat at (20 ± 1) ^o C for 60 min until they were completely saturated with water. The thickness of each of the extremely saturated hair fragments was also measured in the middle of their length. Measurement results

presented in the table.

 The arithmetic mean of the degree of hair swelling in water H was determined, which was 15.6%.

 In accordance with the rating scale, the condition of the hair was determined as intact.

 Example 2. For the test took dark coarse hair of the Asian type.

 Tested according to example 1.

 The arithmetic mean of the degree of hair swelling in water H was determined, which was 13.5%.

 In accordance with the rating scale, the condition of the hair was determined as intact.

 Example 3. Conducted comparative tests of the degree of swelling of natural brown hair of the European type before and after processing them with a brightening agent based on hydrogen peroxide.

 The arithmetic mean of the degree of swelling of the initial hair in water H was determined, which was 18.5%.

 In accordance with the rating scale, the condition of the hair was classified as slightly damaged.

 The arithmetic mean of the degree of swelling of the hair after treatment with a brightening agent in water H was determined, which was 27.7%.

 In accordance with the rating scale, the condition of the hair was classified as significantly damaged.

Sources of information:
1. US patent N 5131417, A 45 D 7/04, 1992.

 2. Express information. Foreign experience. Chemical industry. Series: Industry of household chemical goods. Issue 2. - Kiev: VNIIHimproekt, 1992, p. 20-21.

 3. The food industry. Series 21. Perfumery, cosmetic and essential oil industry. Overview information. Issue 9.

 4. Hair properties and methods of their research. - M.: TSNIITEI food industry, 1984, p. 13 and 14.

Claims (1)

A method for assessing the state of hair by a quantitative characteristic of hair properties, including measuring an information-significant parameter of a tested hair sample and then determining a quantitative characteristic of hair properties using a measured parameter, characterized in that the condition of the hair is evaluated by the degree of hair swelling in water, and for measurement use a hair sample with a length of at least 18 mm, measure the thickness of the sample in a dry state and after its maximum saturation with water and determine the degree of swelling ia hair in water using the measured thickness, and the degree of swelling H of the hair sample is calculated by the formula

where h _ref is the thickness of the hair sample in a dry state, mm;
h _n - the thickness of the hair sample after the limiting saturation with water, mm

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