RU1796181C - Hygienic detergent - Google Patents

Abstract

The invention relates to a composition of cosmetic and hygienic detergents for washing heads and bodies in water of any hardness. In order to obtain a hygienic detergent that provides low electrification of hair after washing, facilitates hair styling, has an attractive appearance, dermatological softness, good washing and foaming ability, resistance to stiffness salts, complete biodegradability, it is, along with known active base - disodium salts of sulfonate monoesters contains fatty acid mono- or diethanolamides, citric acid, protein hydrolyzate, which is a mixture of consuming oligopeptides with a molecular weight of 700-2000, a dye in the following ratio of components, wt.%: a mixture of disodium salts of sulfonate succinic acid monoesters 25.0-35.0; protein hydrolyzate 0.5-5.0; fatty acid alkylolamides 2.0-5.0: citric acid 0.15-0.3; dye 0.003-0.004; preservative 0.05-0.5; perfumery perfume and water up to 100.0.

Description

The invention relates to detergents for cosmetic and hygienic purposes, mainly for washing hair.

Liquid, jelly and creamy detergents for showering or bathing are known in which the active base is partially or fully represented by the surface-active salts of sulfonic succinic acid. Detergents of this type contain a number of conditioning additives, which include viscosity regulators, blowing agents, dermophilic and other additives, as well as substances; giving pearlescent shine.

An example of such detergents is a shower detergent, the composition of which is given below in wt.%:

Sodium lauryl sulfate, 30% 15.0 Disodium salts of sulfonate monoesters and monoethanolamides 24.0 Lauric acid diethanolamide 5.0 Pearlescent additive concentrate 2.5 Sodium chloride 1.0 Dye, preservative, perfume, pH adjuster and water Up to 100.0 Detergent the agent of the given composition has an attractive appearance, has a soft effect on the skin, but not quite universally, because it is not able to reduce the electrostatic charge of hair after washing, which makes it difficult to comb and style.

The prototype of the proposed invention is a creamy detergent

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Fe product, produced by the Shebekinsky Chemical Plant, intended for washing hair and bathing. This cream contains an active base - disodium salts of sulfonate succinic acid monoesters on a mixture of fatty acid monoalkylamides, fatty alcohols and hydroxyethylated fatty alcohols - CSN-AS.

The composition of the detergent Fe, wt.%: ...-..-; ...; Disodium salts of sulfonate succinic acid monoesters-DNS-AC 31.5 Perfumery fragrance 0.1-0.2 Water Else This detergent is one of the preparations with the highest dermatological softness, has good detergency in cold and hot water, fairly good foaming - knowing ability.

The disadvantage of the prototype is a mild conditioning effect on the skin and hair, which results in excessive electrification and tangling of the hair / foam stability is not high enough and the appearance is not quite attractive.

An object of the present invention is to provide a hygienic creamy shower detergent of improved quality, having the ability to reduce the electrification of hair after washing, increased foam stability and a more attractive appearance.

This goal is achieved by the fact that the hygienic creamy detergent further comprises a protein hydrolyzate, which is a mixture of oligopeptides with a molecular weight of 700-2000, fatty acid alkylamides, as well as a number of auxiliary components providing high quality stability of the finished product. The hygienic detergent composition contains the following components, wt.%:

Disodium salts mono. sulfonate succinic acid esters - DNS-AC 25.0-35.0 Protein hydrolyzate 0.5-5.0 Fatty acid alkylamides 2.0-5.0 Preservative 0.05-0.5 Regulator pH 0.1-0 , 3 Dye 0.001-0.004 Perfumery perfume 0.3-1.0 Water Up to 100.0 The introduction of protein hydrolyzate into the composition reduces

electrostatic charge of hair after washing, which greatly facilitates combing and styling of hair. After washing, the hair becomes shiny, silky, luxuriant. Protein hydrolyzate is a product of the hydrolysis of keratin, casein or collagen (TU 10-10-19-02-02). Adsorbed on hair and skin, it not only reduces the electrification of hair, but also improves the dermatological compatibility of surfactants and the structure of the foam.

Diethanolamides of synthetic fatty acids fraction (TU 38.10797-82) or monoethanolamides of synthetic fatty acids of Cio-Cie fraction (TU 38.10798-82) provide a finely cellular and, therefore, more resistant foam and increase the stability of the creamy structure of the detergent

The use of disodium salts of monoesters of g, succinic acid (STP 7-22-83) in the indicated concentration range as an active base in the indicated concentration range makes it possible to obtain a detergent with good washing ability, abundant foaming; dermatological soft, homogeneous, creamy consistency.

In the process of developing and searching for the optimal composition of the claimed detergent, it was unexpectedly found that the combination of DNS-AC, protein hydrolyzate and alkylolamides taken in the indicated concentration ranges gives the pearlescent shine to the new detergent, without any additional introduction of any concentrates of pearlescent additives. Domestic production of concentrates of pearlescent additives, usually obtained on the basis of esters of fatty acids and glycerol or ethylene glycol, is absent. And VPO Soyuzparfyumerprom is forced to purchase them for import. Naturally, the appearance of pearlescent shine significantly improved the aesthetic appearance of the new detergent.

The preservation of the introduction of preservatives into the composition is caused by the presence in the detergent of protein hydrolyzate, which is prone to microbial decomposition. As preservatives, a mixture of methyl and propyl esters of p-hydroxybenzoic acid (TU 6-09-10-1231-77 and 6-09-4727-79), benzyl alcohol (GOST 8751-72), paraform TU ( 6-09-3208-78).

Citric acid (GOST 908-70) can be used as a pH regulator. Citric acid allows you to get

a detergent with a slightly acid reaction (pH) of the medium is very close to the pH of human skin. In addition, as a complexing agent, it binds metal ions contained in water, including calcium and magnesium ions, and thereby helps to improve foaming in hard water.

Perfumery fragrance (TU 16-18-121-77) and dyes (6-14-488-81) improve the organoleptic properties of the finished Product and its appearance).

The characteristics of the starting products used for the preparation of hygienic creamy shower detergent are given in Table 1.

The inventive detergent composition was prepared under pilot and laboratory conditions.

: Under pilot production conditions, hygienic detergent samples were prepared as follows. The required amount of paste DNS-AC was loaded into a composite mixer. The temperature in the mixer during the preparation of the composition is maintained at a level of 50-60 ° C. When the mixer is working, all the necessary additives are supplied to the DNS-AS paste: protein hydrolyzate in the form of a 30-35% aqueous solution at 20-35 ° C. As The preservatives of the protein hydrolyzate used benzyl alcohol, paraform, a mixture of p-hydroxybenzoic acid methyl ester (Nipagin M) and p-hydroxybenzoic acid propyl ester (Nipazole) in a 2: 1 ratio. The commercial form of Nipagin and Nipazole is crystalline powders, their solubility in water is negligible. Therefore, a mixture of these preservatives is fed into the composition as a dispersion in a paste D H C-AC or in water.

A small amount of CSN-AS paste in a separate container is heated to 50-60 ° C. With a working mixer, a preservative is fed, mixed for 5-10 minutes and when the mixer is working, gravity is drained into a composite mixer.

The diethanolamides of the acid fraction Cip-Ci3 or the monoethanolamides of the acid fraction are fed into the composition in the form of a melt with a temperature of 34-45 ° C and 65-75 ° C, respectively.

Citric acid is previously dissolved in water at 20-35 ° C and fed to the mixer as a 50% aqueous solution.

Next, the perfume perfume and a dye dissolved in water at 20-30 ° C (1% solution) are supplied to the mixer. After completing all types of feed

mixed for 25-30 minutes and fed to the spill line.

Under laboratory conditions, samples were obtained (examples 6-10, Tables 2 and 3) of a detergent 5 with a component content higher and lower than that claimed. All samples were obtained in a three-necked flask equipped with a stirrer and placed in a heated bath. In a flask in each

In a separate case, the required amount of DNS-AS paste was loaded, heated to 50-60 ° С, and then, with the stirrer working, all additives were loaded: a solution containing Belcosin A citric acid and

5 a mixture of dyes (all components are pre-dissolved in water at 20-35 ° C); preservative as such, and when using Nipagins and Nipazole in the form of a dispersion in a small amount of DNS-AS paste,

0 perfume perfume and water. After completing the supply of all components of the detergent composition, the mixture is stirred at 50-60 ° C for 25-30 minutes and unloaded into a pre-prepared container.

5 In all obtained samples, the determination of the content of the active substance was carried out according to the method described in TU 6-15-615-79 with change No. 1. Penetration and foaming according to the method described in the collection Test methods for aqueous solutions of surfactants. Vol. 1. M .: NIITEKhim, 1965, s, 92-94. The value of the electric charge of dry hair after washing with Fe new creamy detergent (prototype) was determined according to the method described in the journal: Parfum. Kosmet .. 1981. v, 62, No. 6, p. 169-172.

The invention is illustrated by the following examples:

Example 1. To the method given above, from 875 kg of a 40% concentrate of a mixture of disodium salts of sulfonate monoesters - DNS-AC, 30 kg

5 fatty acid diethanolamides fractions, 5 kg of Belcosin A (collagen hydrolyzate), 2 kg of nipagin M (p-hydroxybenzoic acid methyl ester), 1 kg of nipazole (p-hydroxybenzoic acid propyl ether), 3 kg of citric acid, 2 kg 1% aqueous solution of methanyl yellow, 1 kg of a 1% aqueous solution of rhodamine C (or B), 75 liters of water and 6 kg of perfume fragrance receive 1 ton of fresh detergent for showering, the recipe of which is given below. The content of components in wt.%: A mixture of disodium salts of monoesters sulfonatera

acid

35

Fatty acid diethanolamides CicrCi33.0 fraction Belcosin A (collagen hydrolyzate) 0.5 Nipagin M and nipazole (2: 1) 0.3 Citric acid 0.3 Perfume perfume Elegi 0.6 Dye (mixture of rhodamine C and methanyl yellow 1: 2 ) 0.003 Water To 100.0 The resulting creamy detergent was pink in color with a pearly sheen; foam resistance of an aqueous solution. the detergent in 0.5% concentration was 0.94, and the electrostatic charge of the hair after washing the hair was 3.98 coulomb, which is 72.9% compared to the prototype.

Example 2. From 750 kg of a 40% concentrate of a mixture of disodium salts of sulfonate succinic acid monoesters, 20 kg of Cio-Cie fatty acid monoethanolamides, 10 kg of Belcosin A, 2 kg of nipagin M, 1.0 kg nipazole, 1.0 kg of citric acid, 2 kg of a 1% aqueous solution of rhodamine C, 1 kg of a 1% aqueous solution of methanyl yellow, 8 kg of perfume and 203.5 kg of water receive one ton of a hygienic detergent means of the following composition, wt.%:

A mixture of disodium salts of sulfonate succinic acid monoesters 30.0 Cio-Cie fatty acid monoethanolamides 2.0 Belcosin A 1.0 Nipagin M 0.2 Nipazole 0.1 Citric acid 0.1 Perfumery fragrance Apple blossom 0.8 Dye (mixture of rhodamine Xi methanyl yellow ) 0.003 Water Up to 100.0 The resulting creamy detergent was light orange in color with a pearly sheen. The foam resistance of the aqueous detergent solution at a 0.5% concentration was 0.89, and the electrostatic charge of the hair after washing the hair was 3.10 pounds, which is 56.8% compared to the prototype.

Example 3. Of 625 kg of a 40% concentrate of a mixture of disodium salts of monoesters of sulfonic succinic acid, 50 kg of fatty acid dietholnamides fractions

Cio-Ci3, 167 kg of keratin hydrolyzate (30% aqueous product), 5 kg of benzyl alcohol, 2 kg of citric acid, 4 kg of an aqueous 1% solution of methanyl yellow, 3 kg of perfume perfume with a citrus note and 144, 0 kg of water gives 1 ton of cosmetic hygiene detergent of the following composition, wt.%: A mixture of disodium salts of monoesters of sulfonic succinic acid 25.0 Fatty acid diethanolamides of the Cio-Cia fraction 5.0 Keratin hydrolyzate 5.0 Benzyl alcohol 0.5 Citric acid. 0.2. Methanyl yellow 0.004 Perfumery fragrance 0.3 Water Up to 100.0 The resulting creamy detergent was orange in color with a pearly sheen; the foam resistance of the aqueous detergent solution in a 0.5% concentration was 0.88, and the electrostatic charge of the hair after washing the hair was 2.80-10 coulomb, which is 51.3% compared to the prototype.

Example 4, Of 800 kg of a 35% paste of disodium salts of monoesters. sulfonic acid, 30 kg of diethanol. fatty acid amides of the Cio-Ci3 fraction, 1Q kg of Belcosin A, 0.5 kg of paraform, 2 kg of citric acid, 6 kg of perfume, 2 kg of 1% aqueous solution of rhodamine C ( C), 2 kg of a 1% solution of methanil yellow and 147 kg of iodine get 1 ton of detergent.

The composition / detergent is as follows (wt.%):

A mixture of disodium salts of sulfonate succinic acid monoesters. 28.0 Cio-Ci3 fatty acid diethanolamides 3.0 Belcosin A 1.0 Paraform: 0.05 Citric acid 0.2 Perfume fragrance 0.6 Colorant (mixture of rhodamine C. methanyl yellow) 0.004 Water Up to 100 The detergent obtained was creamy consistency with pearly shine, apricot color: the foam resistance of the aqueous detergent solution in a 0.5% concentration was 0.92, and the electrostatic charge of the hair after washing the hair was 3.00 pounds, which is 54.9% compared to the prototype .

PRI me R 5. Of 857 kg of a 35% concentrate of a mixture of disodium salts of sulfonate succinic acid monoesters. 30 kg of fatty acid diethanolamides of the Cio-Ci fraction 3.50 kg of Belcosin A, 3.3 kg of nipagin M, 1.7 kg of nipazole, 3 kg of citric acid, 1 kg of a 1% aqueous solution of rhodamine C (or B), 2 kg 1 % aqueous solution of methyl yellow, b kg of perfume and 46 liters of water get one ton of detergent of the following composition, May.%:

Mixture of disodium salts of sulfonate succinic acid monoesters 30.0 CicrCi3 fatty acid diethanolamides 3.0 Belcosin A. 5.0 Nipagin and nipazole (2: 1) 0.5 Citric acid 0.3 Perfume perfume Elega 0.6 Dye (mixture of rhodamine C and methanyl yellow (1: 2) 0.003 Water Up to 100 The detergent obtained had a creamy consistency, pearlescent shine and pink color. The foam resistance of the aqueous solution of the detergent in a 0.5% concentration was 0.9, and the electrostatic charge of the hair after shampooing 3.30 pendants, which is 60.4% compared to rototipom.

PRI me R 6. Of 875 g of a 40% concentrate mixture of disodium salts of monoesters of sulfonate acid, 30 g of fatty acid diethanolamides fraction Skg-Siz, 8 g of Belkozin A. 2 g of nipagin M and 1 g of nipazole, 3 g citric acid, 2 g of a 1% aqueous solution of yellow methanilogyr and 1 g of a 1% aqueous solution of rhodamine C, 6 g of perfume and 72 ml of water received 1 kg of the finished detergent, the formulation of which is given below: Content of components, May. %: A mixture of disodium salts of sulfonate succinic acid monoesters35 Fatty acid diethanolamides fr. Cro-Ci3 3 Belcosin A 8 Nipagin Mi nipazole (2: 1) 0.3 Citric acid 0.3 Perfumery fragrance 0.6 Dye (mixture of rhodamine C and methanyl yellow 1: 2) 0.003 Water. Up to 100

The resulting creamy detergent was pink in color with a pearly sheen. The foam resistance of the aqueous solution in a 0.5% concentration is 0.9, and the electrostatic charge of the hair after washing is 2.88 pounds. In other words, the degree of electrification of the hair was 52.7, in relation to the prototype despite a significant increase in the content of protein hydrolyzate. Therefore, a further increase in the basic conditioning additive is impractical.

PRI me R 7. Of 571 g of a 35% concentrate of a mixture of disodium salts of monoesters of sulfonic succinic acid, 20 g of monoethanolamides of fatty acids of the fraction Syu.-Schb, 10 g of Belcosin A, 2 g of nipagin M and 1 g of nipazole, 1 g of citric acid, 2 g of a 1% aqueous solution of rhodamine C, 2 g of a 1% aqueous solution of methanyl yellow. 8 g of perfume fragrance and 384 g of water received 1 kg of hygienic detergent of the following composition, in May. %:

A mixture of disodium salts of sulfonate succinic acid monoesters 20 Monoethanolamides of fatty acids of fraction 2 Belcosin A 1.0 Nipagin M 0.2 Nipazole .0.1 Citric acid 0.1 Perfumery fragrance 0.8 Dye (mixture of rhodamine C and methanyl yellow 1: 1) 0.004 Water D ° 100.0 The resulting creamy detergent was orange in color with a pearly shine, and when standing on the third day it was stratified. Those. the reduction of the active base of the following limits is impractical since the product becomes unstable even during short-term storage. No further testing of the sample was carried out. .

EXAMPLE 8. From 800 g of a 50% mixture of disodium salts of sulfonate succinic acid monoesters, 50 g of fatty acid diethanolamides of the CcG chz fraction. 30 g of Belkozin B, 5 g of benzyl alcohol, 2 g of citric acid, 4 g of an aqueous 1% solution of methanol yellow, 3 g of perfume and 106 g of water received 1 kg of detergent of the following composition, May.%: A mixture of disodium salts of sulfonate monoesters Acids 40.0 Diethanolamides of fatty acids CicrCis fraction 5.0 Belcosin A 3.0

Benzyl alcohol Citric acid Methanyl yellow Perfumery fragrance Water

The resulting creamy detergent was orange with a pearly sheen. The foam resistance of a 0.5% aqueous solution was 0.89. The electrostatic charge of hair after shampooing is 3.08 pounds or 56% compared to the prototype. However, at 40% content of the active base, the viscosity of the product increases so much that it was impossible to squeeze it out of the packaging. Therefore, a further increase in the active substance content in the detergent above 35% is impractical.

PRI me R 9. From 800 g of a paste of 35% disodium salts of sulfonate succinic acid monoesters, 10 g of fatty acid diethanolamides fraction, 10 g Belkosin A, 0.5 g paraforma, 2 g citric acid, 6 g perfume, 2 g of a 1% aqueous solution of rhodamine (C (B), 1 g of a 1% aqueous solution of methanyl yellow and 163 g of water receive 1 kg of new detergent of the following composition, May.%: Mixture of disodium salts of sulfonate succinic acid monoesters 28.0 Fatty acid diethanolamides of the Cio-Ci3 fraction 1.0 Belcosin A 1-0 Paraform 0.05 Citric acid 0.2 Perfumery fragrance 0.6 Dye (with all rhodamine C of methanyl yellow) 0.003 Water Up to 100 The detergent obtained had a creamy consistency with a pearly shine, it was orange in color, the electrostatic charge of the hair after washing was 2.95 × 10 pounds, or 54% compared to the prototype; foam resistance was 0.8. The data presented indicate that a decrease in the content of alkyl amides compared with the claimed leads to a decrease in foam resistance.

PRI me R 10. Of 857 kg of a 35% concentrate mixture of disodium salts of monoesters of sulfonate acid, 30 g of fatty acid diethanolamides fraction, 50 kg of Belkosin A, 0.1 t of benzyl alcohol, 1 g of 1% aqueous a solution of rhodamine C or (B), 2 g of a 1% aqueous solution of methanilver yellow, 6 g of perfume and 54 g of water receive 1 kg of detergent of the following composition, wt.%: A mixture of disodium salts of sulfonate monoesters 30.0 Fatty acid diethanolamides Cip-Ci3 fractions 3.0 Belcosin A 5.0 Benzyl alcohol 0.01 Citric acid 0.3 Perfume perfume Eleg 0.6 Crusher (a mixture of rhodamine C and methanyl yellow (1: 2) 0.003 Water Up to 100 Due to the insufficient amount of preservative added to the received detergent sample for taking a shower for the sixth day, there is a noticeable smell of a soft protein, therefore no further testing of the sample was carried out.

In the table. Figure 2 shows the formulations of all obtained samples of a new shower cleaner and prototype. In the table. 3 summarizes the test results of the investigated samples. A comparison of the obtained data (Table 3) allows us to conclude that the combination and use of the components only in the declared amounts allows us to achieve the goal of the invention and to obtain a hygienic creamy Detergent for showering, which significantly reduces by comparison with the prototype 24-54% of the electrification of hair, which after washing becomes soft, shiny, easily fit into the hairstyle; provides a finer cellular and stable foam: the foam resistance of the tested samples is 0.86-0.94; has a more attractive appearance due to the unexpectedly occurring pearlescent shine, which eliminates the need for special introduction of a pearlized additive concentrate purchased from import.

-In addition, the new detergent is characterized by good detergency and foaming, the absence of a degreasing and irritating effect, resistance to hardness salts, belongs to the 4th class of low-hazard industrial products and biologically soft products. The organization of industrial production of a new hygienic cremorphic shower detergent is planned at the Shebekinsky Chemical Plant.

Claims (3)

SUMMARY OF THE INVENTION A hygienic detergent containing disodium salts of sulfonate succinic monoesters, perfume and water, emulsified so that, in order to improve the conditioning effect by reducing their electrification, increasing the stability of the foam and improving the appearance funds, it additionally contains a protein hydrolyzate, which is a mixture of oligopeptides with a mole. m. 700-2000, fatty alkylolamides ACID, CONSERVANT, pH REGULATOR - LEMON- Characterization of products used creamy detergent acid and dye in the following ratio of components, wt.% .: Disodium salts of sulfonate succinic acid monoesters 25-35 Fatty acid alkylamides. 2-5 Protein hydrolyzate 0.5-5 Preservative 0.05-0.5 Citric acid 0.1-0.3 Perfumery fragrance 0.1-0.3 Dye 0.1-0.3. Water Rest t a about l and c a 1 hygiene shower Products GOST or TU number Active detergent base STP 7-22-83 Belcosin A - protein hydrolyzate TU 10-10-19-02-86 3 Citric Acid GOST 908-70 TU 30.10797-82 at Monoethanolamides of synthetic fatty acids of fraction C, TU 38.10797-U2 GOS1 or TU indicators Appearance - cream crease base weight from white to slightly yellow pH of a 1% aqueous solution of 6.5-7.5 The content of the CS-AC, wt.% not less than 30.0 Appearance - white or light yellow powder Absolutely dry content substances, wt.% not less than92.0 rc 1% solution hydrolysis eta4-7 The content of salt, IAS.%, No more Calcium content Molecular Weight of Peptides 3.0 missing 703 Appearance - colorless crystals or - powder without lumps of white or white with a yellowish tint sour, odorless Taste Structure crystalline, free-flowing and dry to the touch, not sticky, without impurities Mass fraction of citric acid in terms of monohydrate, wt.%, Not less. 95.5 Appearance - homogeneous, oily. substance Color according to FEK, no more than 1, k Saponification number, mg KOH / g, no more. not standardized Mass fraction of free amines, wt.%, Not more than 7.0 Mass fraction of the substance extracted with petroleum ether, mls.% 7-8 The pour point, ° C is not standardized Hydrogen Index (pH) 1% solution, not more than 10 Appearance - at 25 ° С solid waxy substance in the form of flakes, granules Color on FEK, no more than 1,2 Hydrogen Index (pH) 1% solution, not more than 10.0 Saponification number, mg KOH / g, no more than 6.0 Products , GOST or TU number 5. 6. 7. TU b-09-10-1231-77 1. 2. 3. Nipazole (propyl ester of p-hydroxybenoic acid) TU 6-0.9-727-79 Perfumery Fragrance TU 1b-b-121-77 Rhodamine C (B) 10 Methanyl yellow (organic acid dye, yellow methanil for the skin) TU b-Y-vv-Y1. Outside view - dark red crystalline powder 2. The residue after sifting on a sieve (G 05BK, May., Not more than 5.0 3. The content of water-insoluble impurities, ma.e.t, not more than 1.0 . Spectroscopic constant, / m553 TU 6-1 ii-Wi-Sl1. Appearance - crystalline homogeneous dark yellow flaw 2. The residue after sieving on a sieve .D56K. us.%, no more than 2.0 . Component Innervation P цеп Chain of Samples of Wet Acceptance and Prototype CM The composition of the agent, wt. 1 Examples 1 2h c 5 6 7 V Diatrium salts of sulfonate acid monoesters - DNS-AC Diethanolamides, synthetic fatty acid fraction. Synthetic Ethnic Fatty Acid Nrnoethanolamides, Citf-C Fractions,. / Belcosin A11 (hydroliethate of colzagen) Keratin Hydrolyate Mixture of nipagin and nipaeol (2M); Benzyl alcohol Paraform Citric acid Perfume Dye 35.0 30.0 25.0 28.0 30.0 35.0 .20.0 40.0 2nd.O 30.0 31.5 3.0 oh 5 0..3 5.0 3.0, 0 3.0 5.0 2.0 3.0 2.0 1.0 0.3 0.1 2.0 5,0 0.5 1.0 5.0 8.0 1.03.0 1.0 5.0 - 0.5 0.3 0.3 - 0.5-0.1 0.05 - ..-; 0 050, 2 0.2 0.3 0.3 0.1 0.20.20.3 0.3 0.6 0.00} O.ODli D, “Oil 0.004 0.003 0.003 0.004 0.004 O. OOC 0.003. 0.8 0.3 0.6 0.6 0.6 0.8 0.3 0.6 0.6 0.1-0,  Indicators GOST IP TU Mass fraction of free amines, wt.%, No more than 2.5 The content of substances extracted with petroleum ether is normalized Pour point 60-70 Appearance is a crystalline powder from. to cream color Melting point, ° C 125-131 Mass fraction of methyl ester of p-hydroxybenoic acid, mass%, not less than The residue after calcination, masD, no more 0.1 appearance - crystalline powder from white to light yellow Melting point, C95-96 Mass fraction of propyl .... p-hydroxybenzoic acid ester, wt.%, Not less than 99 The residue after calcination, wt.%, Not more than 0.1 2-12 1, Mi-l, 50 Appearance - oil nista liquid from white to light brown Acid number, mg KOH / g Refractive index Table 10 Prototype 5.0 3.0, 0 3.0 5.0 2.0 3.0 2.0 5,0 1.0 5.0 8.0 1.03.0 1.0 5.0 - 0.5 0.3 0.3 - 0.5 0.5-0.1 0.05 - ..-; 0 050, 2 0.2 0.3 0.3 0.1 0.20.20.3 0.1-0.2 Qualitative indicators of a hygienic aching tool for showering 10 by Prototype 5.46-10100 (NS Fe) T a l 3 a .uk In connection with the introduction of an insufficient amount of preservative in the obtained detergent sample on the sixth day, a tangible smell will be appreciated. Creamy white detergent Silky hair, combed and styled in a hairstyle