RU2738609C1 - Antimicrobial soap and method of its production - Google Patents

Abstract

FIELD: hygiene.

SUBSTANCE: invention relates to production of personal hygiene products, namely to toilet soap with antimicrobial (antibacterial and fungicidal) properties, which can be used both for medical and household purposes. Invention aims at solving the technical problem of expanding the range of personal hygiene detergents with improved antimicrobial and organoleptic properties. Described is an antimicrobial soap, characterized in that it contains the following ratio of components, wt%: soap base 70-85; n-hexadecyltriphenylphosphonium bromide 0.001; 5,7-dichloro-4,6-dinitrobenzofuroxane 0.01; 4,6-dichloro-5-nitrobenzofuroxane 0.1; turmeric powder; aromatic perfume (from mint oil, lemon-grass, eucalyptus, tea tree, almond, juniper etc.) 0.25; 3 drops per 100 g of soap; water - balance. Also described is a method of producing antimicrobial soap.

EFFECT: creation of a new antimicrobial soap having antibacterial and fungicidal activity and high organoleptic properties.

2 cl, 4 ex, 4 dwg

Description

The invention relates primarily to the production of personal hygiene products, namely to toilet soap with antimicrobial (antibacterial and fungicidal) properties, which can be used for both medical and household purposes. Designed to solve the technical problem of expanding the range of personal hygiene detergents with enhanced antimicrobial and organoleptic properties.

It is known that quaternary phosphonium salts, chloronitrobenzofuroxans and turmeric have a pronounced antimicrobial activity. The antimicrobial activity of quaternary phosphonium salts is described, in particular, in the source "Biological activity of quaternary phosphonium salts and prospects for their medical use", IV Galkina, SN Egorova [https://cyberleninka.ru/article/n/biologicheskaya- aktivnost-chetvertichnyh-soley-fosfoniya-i-perspektivy-ih-meditsinskogo-primeneniya / viewer]. The known technical solution provides data confirming the antimicrobial activity of quaternary phosphonium salts. From the studied prior art, a number of sources have been identified using quaternary phosphonium salts in detergents, in particular, soap.

So, the invention is known according to the patent of the Russian Federation No. 2356941 "Composition of bar soap with a reduced ability to stability of the bar", the essence is a cleansing bar soap containing a zwitterionic surfactant selected from the group containing derivatives of aliphatic quaternary ammonium, phosphonium and sulfonium compounds, in which aliphatic radicals can be linear or branched, and in which one of the aliphatic substituents contains from about 8 to 18 carbon atoms, and one contains an anionic water solubilizing group selected from the group consisting of carboxyl, sulfonate, sulfate, phosphate and phosphonate.

The disadvantage of the known technical solution is that the derivatives of quaternary phosphonium are used for a different purpose than in the claimed technical solution, namely, as zwitterionic surfactants. In this case, the known technical solution has a different composition of components and a method of obtaining, a different purpose and, accordingly, a different technical result.

The antimicrobial activity of chloronitrobenzofuroxans is described, in particular, in the source [L.M. Yusupova, S. Yu. Garmonov, I.M. Zakharov et al. Multipurpose biological protection agents based on chlorine derivatives of nitrobenzofuroxan / Bulletin of Kazan Technological University, 2005, No. 1, p. 103-111].

Also known is the invention of the applicant for the patent of the Russian Federation No. 2452477 "Antibacterial and antimycotic composition of a wide spectrum of action based on salts of phosphonium and substituted benzofuroxan", the essence is an antibacterial and antimycotic composition containing halide salts of quaternary phosphonium, based on tributyl- and triphenylphosphines with higher halide alkyls 5,7-dichloro-4,6-nitrobenzofuroxan as active components in their equimolar ratio.

Thus, the known technical solution confirmed the antibacterial and antimycotic activity of the halide salts of quaternary phosphonium and chloronitrobenzofuroxans, however, compared to the claimed technical solution, it has a different purpose and, accordingly, a different technical result.

The use of chloronitrobenzofuroxans in the composition of detergents, in particular, soaps, has not been identified by the applicant from the studied prior art.

The antimicrobial activity of turmeric is described, in particular, in the source [https://yandex.ru/q/question/food/v_chem_polza_i_vred_kurkumy_4dfee2a2/?utm_source=yandex&utm_medium=wizard&answer_id=0f6d283f-48465-4e1.

Turmeric is a natural antiseptic and antibacterial agent used to disinfect cuts and burns. It stops the development of melanoma and destroys its already formed cells. It is a powerful natural remedy that helps with inflammation and does not cause side effects. Possessing anti-inflammatory properties, it is effectively used in the treatment of arthritis and rheumatoid arthritis. It is effectively used to treat inflammatory skin diseases. Relieves itching, boils, eczema, psoriasis. Turmeric facilitates wound healing and promotes regeneration of the affected skin.

At the same time, turmeric has high organoleptic properties - a bright yellow color and a pleasant smell.

Known useful model under the patent PH No. 22017000829 "Antibacterial herbal liquid hand soap", the essence is a formulation of antibacterial herbal liquid hand soap containing extracts of leaves of guava, turmeric, oregano, aloe vera and lemon. Herbal Antibacterial Liquid Hand Soap as an alternative to the traditional and effective antibacterial liquid hand soap made from organic ingredients.

The disadvantage of the known technical solution is that it does not contain such antimicrobial (antibacterial and fungicidal) additives as quaternary phosphonium salts and chloronitrobenzofuroxans, which at the same time increase the organoleptic properties of the claimed soap.

From the investigated prior art, the applicant has identified sources that describe detergents, in particular, soap, with antibacterial and fungicidal action.

So, the invention is known according to the patent of the Russian Federation No. 2710362 "Toilet soap", the essence is toilet soap, including soap shavings, perfume, dye, abrasive, antibacterial, antiviral, fungicidal and wound-healing components, characterized in that as antibacterial, antiviral, fungicidal, wound healing, antiallergenic component and dye contains himatomelanic acid in the following ratio, wt. %: himatomelanic acid - 0.01-5.0; perfume - 0.0-0.5; abrasive component - 0.0-2.0; dye - 0.0-0.5; soap shavings - the rest.

The disadvantage of the known technical solution is that it does not contain such antimicrobial (antibacterial and fungicidal) additives as quaternary phosphonium salts, chloronitrobenzofuroxans, turmeric, which at the same time increase the facet properties of the claimed soap.

Based on the analysis of the investigated state of the art, the applicant concludes that the identified analogues coincide with the claimed technical solution for various single characteristics in different analogues, as a result of which the prototype in relation to the claimed composition and in relation to the claimed method has not been identified, therefore, independent claims were drawn up without a limiting part.

At the same time, the applicant believes that the claimed technical solution is not a summation of known technical solutions, both in terms of composition and in respect of the method, for the following reasons.

With regard to the composition.

The composition selected by the applicant and the ratio of its components is not obvious to a person skilled in the art, since:

- the identified technical solutions containing such a component as chloronitrobenzofuroxan do not coincide with the declared technical solution for the intended purpose, since they are not detergents;

- the simultaneous use of derivatives of quaternary phosphonium, chloronitrobenzofuroxan and turmeric in detergents, in particular, soap, has not been identified by the applicant, while, according to the applicant, the composition and ratio of the antimicrobial components of the claimed soap, which is not obvious to a specialist in this field of technology, has been developed, namely - 0.001 wt% n-hexadecyltriphenylphosphonium bromide, 0.01 wt% 5,7-dichloro-4,6-dinitrobenzofuroxan, 0.1 wt% 4,6-dichloro-5-nitrobenzofuroxan, 0.25 wt% turmeric powder ...

With regard to the method.

The identified sources lack such action as:

- the addition of an antimicrobial filler with a composition and ratio of components not obvious to a person skilled in the art, selected by the applicant, namely 0.001 wt% n-hexadecyltriphenylphosphonium bromide, 0.01 wt% 5,7-dichloro-4,6-dinitrobenzofuroxan, 0.1 wt% 4,6-dichloro-5-nitrobenzofuroxan, 0.25 wt% turmeric powder.

Based on the foregoing, the claimed technical solution, according to the applicant, is not obvious to those skilled in the art.

The goals and technical result of the claimed technical solution is the creation of a new domestic antimicrobial soap with:

- antibacterial and fungicidal activity due to the inclusion of components with high antibacterial and fungicidal activity in its composition;

- the absence of toxicity due to the fact that the antimicrobial components introduced into the composition are either completely non-toxic or have very low toxicity, and at the same time are introduced at very low concentrations;

- high organoleptic properties due to the inclusion of turmeric in the composition;

The invention makes it possible to enhance the antibacterial and fungicidal effect, due to this, the shelf life of the soap is also lengthened and its quality is increased.

The claimed composition provides a pronounced antimicrobial effect of soap, protects the skin from infections and relieves inflammation.

The essence of the claimed technical solution is an antimicrobial soap, characterized by the fact that it contains the following ratio of components, wt%:

soap base 70-85 n-hexadecyltriphenylphosphonium bromide 0.001 5,7-dichloro-4,6-dinitrobenzofuroxan 0.01 4,6-dichloro-5-nitrobenzofuroxan 0.1 turmeric powder aromatic fragrance from a number of mint oil, lemongrass, eucalyptus, tea tree, almond, juniper, etc. 0.25 3 drops per 100 g of soap water rest

A method for producing an antimicrobial soap according to claim 1, which comprises the fact that 70-85 wt.% of the soap base is melted in the field of a microwave oven until it is completely melted, then the molten soap base is taken out, cooled to a temperature of at least 60 ° С and 14.75-29.75 wt.% is added to it with stirring pre-prepared liquid part of the antimicrobial filler in the composition in terms of the finished soap: 0.001 wt.% n-hexadecyltriphenylphosphonium bromide, 0.01 wt.% 5,7-dichloro-4,6-dinitrobenzofuroxan, 0.1 wt.% 4.6 -dichloro-5-nitrobenzofuroxan, the rest is water; then add 0.25 wt.% turmeric powder; then add a fragrant fragrance in the amount of 3 drops per 100 grams of soap, selected from the series: oil of mint, lemongrass, eucalyptus, tea tree, almond or juniper; stirring is continued until a uniform consistency is achieved; then they take the molds, spray them with water or ethyl alcohol, pour the soap mass into the molds, and cool them at room temperature.

The claimed technical solution is illustrated in FIG. 1 - Fig. 4.

FIG. one submitted the declared soap, where:

a) soap in the form;

b) ready-made soap.

FIG. 2 shows the tested soaps: "Strawberry", "Tar", "Economic", the declared soap.

FIG. 3 shows the results of a study of the antimicrobial (antibacterial and fungicidal) activity of the claimed soap, obtained by counting the number of colonies grown on a nutrient medium in all dishes.

FIG. 4 is a table showing the results of measuring the antibacterial and fungicidal activity of a mixture of active ingredients.

The claimed technical result is achieved by introducing active ingredients with known antibacterial and fungicidal activity into the composition of the claimed soap, namely, n-hexadecyltriphenylphosphonium bromide, 5.7-dichloro-4.6-dinitrobenzofuroxan, 4.6-dichloro-5-nitrobenzofuroxan, turmeric powder.

Further, the applicant provides a more detailed description of individual components of the declared soap.

The soap base is a commercial product known as such and is produced industrially.

To illustrate the implementation of the claimed technical solution, the applicant used a Russian soap base, the main components of which are water, glycerin, sodium stearate, propylene glycol, sodium laureth sulfate. At the same time, the applicant explains that the specified soap base does not limit the scope of the applicant's patent claims, since any known soap base can be used to achieve the claimed technical result.

N-hexadecyltriphenylphosphonium bromide is obtained according to a known method [Starke Ch.M. Phase transfer catalysis. Chemistry, Catalysts and Applications / Ed. Ch.M.Starks. M .: Chemistry, 1991. - 157 p.].

5,7-dichloro-4,6-dinitrobenzofuroxan is obtained according to the known method [Electronic collection of articles based on the materials of the XIII student international correspondence scientific and practical conference “Scientific community of students of the XXI century. Natural sciences, Novosibirsk, November 2013, No. 7, p. 110-121] [https://sibac.info/archive/nature/Natur07.11.2013.pdf].

4,6-dichloro-5-nitrobenzofuroxan is prepared according to a known method [RF patent No. 2051913].

A study of the acute toxicity of a composition consisting of n-hexadecyltriphenylphosphonium bromide and substituted nitrobenzofuroxan showed that it belongs to the IV hazard class - substances that are low-hazard for warm-blooded animals [RF patent No. 2473334]. Thus, the filler of the claimed soap is low-toxic.

Turmeric powder is a commercial food product known as such and is produced industrially.

A fragrant fragrance selected from the series: oil of mint, lemongrass, eucalyptus, tea tree, almond, juniper, etc. is a known as such a commercial food product, produced by an industrial method.

Further, the applicant provides the implementation of the declared technical solution.

The ratio of the components in the declared soap was selected by the applicant based on:

- the antimicrobial activity of the components given above;

- organoleptic properties of ingredients and ready-made soap.

Based on the above, namely, antimicrobial activity and organoleptic properties, the applicant empirically selected the optimal ratio of the selected components. All quantities given in the Examples to illustrate the implementation of the claimed technical solution are calculated to obtain 100 g of the claimed soap.

The declared soap is obtained by the declared method in the following steps.

Stage 1. Preparation the liquid portion of the antimicrobial filler.

Prepare 14.75-29.75% (for example, 14.75-29.75 g) of the liquid part of the antimicrobial filler by weighing and dissolving in distilled water the calculated amount of the declared components to obtain the following final concentrations in the declared soap:

0.01 wt% n-hexadecyltriphenylphosphonium bromide,

0.01 wt% 5,7-dichloro-4,6-dinitrobenzofuroxan,

0.1 wt% 4,6-dichloro-5-nitrobenzofuroxan.

Stage 2. Preparation of the soap base melt.

Take 70-85 wt.% (For example, 70-85 g) of a soap base, grind, for example, with a knife, place in heat-resistant dishes, for example, glass, place in a microwave (microwave oven) field. Microwave power is set, for example, 700 W, kept until complete melting, for example, 15-20 seconds, removed from the microwave oven.

Stage 3. Preparing the finished soap.

In 70-85 wt.% (For example, 70-85 g) of the molten soap base prepared in Step 2, 14.75-29.75 wt.% (For example, 14.75-29 , 75 g) of the liquid portion of the antimicrobial filler prepared in Step 1.

Then add 0.25 wt.% (For example, 0.25 g) of turmeric powder.

Then add 3 drops per 100 g of soap of an aromatic fragrance selected from the row: oil of mint, lemongrass, eucalyptus, tea tree, almond, juniper, etc., mix thoroughly, for example, with a spatula.

Stirring is continued until a homogeneous consistency is achieved, if necessary, the mass is placed for a short time in a microwave field for melting, then mixed again.

When a uniform consistency of the molten mass is reached, molds are taken, their surface is sprayed with water or ethyl alcohol, the soap mass is poured into molds, and cooled at room temperature.

Get the stated soap.

Further, the applicant gives examples of obtaining the claimed soap with the stated concentration ranges.

Example 1. Obtaining soap with a soap base concentration of 70 wt.% And a liquid part of an antimicrobial filler of 29.75 wt.%.

The sequence of actions described above was carried out, while taking 70 wt.% (70 g) of the soap base and 29.75 wt.% (29.25 g) of the liquid part of the antimicrobial filler.

Received the declared soap.

Example 2. Obtaining soap with a soap base concentration of 85 wt.% And a liquid part of the antimicrobial filler of 14.75 wt.%.

The sequence of actions described above was carried out, while taking 85 wt% (85 g) of the soap base and 14.75 wt% (14.75 g) of the liquid part of the antimicrobial filler.

Received the declared soap.

Further, the applicant gives an example of confirmation of the antimicrobial (antibacterial and fungicidal) activity of the claimed soap.

Example 3. Study of the antimicrobial (antibacterial and fungicidal) activity of an antimicrobial filler - a mixture of active substances.

To study the antimicrobial properties of the antimicrobial filler - a mixture of active substances, the applicant chose the sedimentation method for studying air, proposed by R. Koch.

Koch's method consists in the cultivation of indoor air bacteria on nutrient media treated with the test substances.

In accordance with Koch's method, indoor air bacteria were cultured on nutrient media treated with a mixture of active ingredients: n-hexadecyltriphenylphosphonium bromide at a concentration of 0.001%, 5,7-dichloro-4,6-dinitrobenzofuroxan at a concentration of 0.01%, 4.6 -dichloro-5-nitrobenzofuroxan at a concentration of 0.1%, turmeric powder at a concentration of 0.25%, followed by determination of the qualitative composition of pathogenic colonies.

The experiment was carried out as follows.

The prepared agarized nutrient medium in a sterile box was poured into sterile Petri dishes. The study was carried out on the example of microorganisms E. Coli, B. Cereus, S. Aureus, Candida albicans. To study the antimicrobial properties of the filler, 5 drops of the filler, a mixture of active substances, were added to the nutrient medium of each dish inhabited by microorganisms and distributed over the entire surface of the nutrient medium. The cup was kept in a thermostat for 5 days at a temperature of 29 - 30 ° C, constantly monitoring the growth of colonies. A description of the cultural and morphological characteristics of the colonies in each Petri dish was made.

The results of measuring the antibacterial and fungicidal activity of the mixture of active substances are shown in Fig. 4 in the Table.

From the data given in the Table, it can be seen that the filler - a mixture of active ingredients of the claimed soap, has a high antibacterial and fungicidal activity, since the growth rate of microorganism retention in all cases exceeds 28 mm.

Example 4. Study of the antimicrobial (antibacterial and fungicidal) activity of the claimed soap.

To study the antimicrobial properties of the claimed soap, the applicant chose the sedimentation method for studying the air R. Koch [AI Netrusov, MA Egorova, LM Zakharchuk. Workshop on microbiology for university students. M .: Publishing Center Academy, 2005. - 608s.].

From a sanitary and microbiological point of view, air is an environment in which microorganisms are not able to multiply, since there are no nutrients and moisture in it. Nevertheless, various cocci, spores of bacteria, molds and actinomycetes are constantly present in the air.

Microbial air pollution depends on many factors. So, pathogenic microbes enter the air with dust from the soil and with the secretions of sick people and animals.

Indoor air becomes polluted during dry cleaning, sneezing and coughing. In this case, aerosol droplets in the air serve as a source of aerogenic contamination of others.

Agar-agar was chosen as a nutrient medium for research, since it is this medium that meets the objectives of the experiment and most microorganisms can be grown on it.

For the study, the following soaps of domestic production were selected: "Strawberry", "Tar", "Economic", as well as the declared soap (Fig. 2).

In accordance with Koch's method, bacteria were cultured (surface inoculation) of indoor air on nutrient agar-agar media treated with the subject - the declared soap solution and three soap solutions (based on "Strawberry" soap, "Tar" and "Household" soap for comparison (1 wt.%), Followed by determination of the qualitative composition of pathogenic and opportunistic colonies in all Petri dishes, as a result of which the antimicrobial properties of different types of soap are compared.

The experiment was carried out as follows.

To prepare a nutrient medium for the cultivation of microorganisms, we used dry (GRM-agar) TU 9398-020-78095326-2006. A weighed sample of 38 grams of dry powder is stirred in 1 liter of distilled water, boiled for 2 minutes, then filtered, dispensed into clean bottles sterilization at 121 ^{° C} for 15 minutes. Then the solution is cooled to 45-50 ° C and poured into sterile Petri dishes with a layer of 4-6 mm. After solidification of the medium, the Petri dishes were dried at 37 ° C for 1 hour. For surface inoculation of air microorganisms, the Petri dishes are opened for 5 minutes and then closed.

To study the antimicrobial properties of soaps, 5 drops of a corresponding soap solution (1 wt%) are added to the nutrient medium of each dish inhabited by microorganisms and distributed over the entire surface of the nutrient medium. One Petri dish was not treated with soapy water (control), in which the microflora of the room air naturally sprouted.

The dishes were kept in a thermostat for 5 days at a temperature of 29-30 ° C, constantly monitoring the process of colonial growth.

A description of the cultural and morphological features of the colonies was made in each dish. After 5 days, the results were analyzed - the number of colonies was counted and a description of the cultural and morphological characteristics of the colonies grown on the nutrient medium was made in all plates. The results are shown in FIG. 3.

From the data shown in Fig. 3, it can be concluded that in the control Petri dish, which was not treated with soapy water, 37 colonies of microorganisms, of different species, colors and sizes of bacteria and fungi, grew.

Colonies were located pointwise throughout the nutrient medium. Also found in the dish are yellow colonies of Staphylococcus aureus.

The rest of the Petri dishes were distributed according to the number of colonies in the following sequence:

- 25 colonies have grown in a Petri dish treated with Strawberry Toilet soap,

- in a cup with Tar soap - 17 colonies,

- in a cup with "Household" soap - 11 colonies,

- in a dish treated with the declared antimicrobial soap - only 2 point colonies have grown, where all bacterial cells are spherical.

Thus, from the above, it can be concluded that the applicant has achieved the goals and the claimed technical result , namely, a new domestic antimicrobial soap has been created, which has:

- antibacterial and fungicidal activity due to the inclusion of components with high antibacterial and fungicidal activity in its composition;

- the absence of toxicity due to the fact that the antimicrobial agents introduced into the composition have low toxicity, as well as due to their low content;

- high organoleptic properties due to the inclusion of turmeric in the composition.

The invention makes it possible to enhance the antibacterial and fungicidal effect, due to this, the shelf life of the soap is also lengthened, and its quality is increased.

The claimed composition provides a pronounced antimicrobial effect of soap, protects the skin from infections and relieves inflammation.

The claimed technical solution meets the "novelty" requirement of patentability for inventions, since at the date of the applicant's submission of application materials from the studied prior art, no sources have been identified that have a set of features identical to the set of features of the claimed technical solution.

The claimed technical solution complies with the "inventive step" patentability requirement for inventions, since the totality of the stated features provides for obtaining technical results that are not obvious to a specialist, exceeding the technical result of analogues. The claimed soap, created according to the claimed method, does not explicitly follow from the state of the art, since the claimed set of features, according to the applicant, were not identified from the investigated state of the art both in terms of composition and in respect of the method.

With regard to the composition.

The composition selected by the applicant and the ratio of its components is not obvious to a person skilled in the art, since:

- the identified technical solutions containing such a component as chloronitrobenzofuroxan do not coincide with the known technical solutions for their intended purpose, since they are not detergents;

- the simultaneous use of derivatives of quaternary phosphonium, chloronitrobenzofuroxan and turmeric in detergents, in particular, soap, was also not identified by the applicant from the studied state of the art, while, according to the applicant, a technical solution that was not obvious for a specialist in this field of technology was developed both in composition and and according to the ratio of the components of the antimicrobial filler of the claimed soap, namely 0.001 wt% n-hexadecyltriphenylphosphonium bromide, 0.01 wt% 5,7-dichloro-4,6-dinitrobenzofuroxan, 0.1 wt% 4,6-dichloro -5-nitrobenzofuroxan, 0.25 wt.% Turmeric powder and 3 drops of perfume per 100 grams of soap.

With regard to the method.

Identified from the studied prior art, there are no such actions as:

- the addition of an antimicrobial filler with a composition and ratio of components not obvious to a person skilled in the art, selected by the applicant, namely 0.001 wt% n-hexadecyltriphenylphosphonium bromide, 0.01 wt% 5,7-dichloro-4,6-dinitrobenzofuroxan, 0.1 wt.% 4,6-dichloro-5-nitrobenzofuroxan, 0.25 wt.% Turmeric powder and 3 drops of perfume per 100 grams of soap.

In this case, the sequence of actions of the claimed method, according to the applicant, is also not identified from the identified analogues.

Based on the foregoing, the claimed technical solution, according to the applicant, is not obvious to those skilled in the art.

The claimed technical solution meets the condition of patentability "industrial applicability" for inventions, since was carried out on standard equipment using standard methods.

Claims (3)

1. Antimicrobial soap, characterized in that it contains the following ratio of components, wt%: soap base 70-85 n-hexadecyltriphenylphosphonium bromide 0.001 5,7-dichloro-4,6-dinitrobenzofuroxan 0.01 4,6-dichloro-5-nitrobenzofuroxan 0.1 turmeric powder aromatic fragrance (from a number of oil of mint, lemongrass, eucalyptus, tea tree, almond, juniper, etc.) 0.25 3 drops per 100 g of soap water rest 2. A method for producing an antimicrobial soap according to claim 1, which comprises melting 70-85 wt.% Of the soap base in a microwave oven until it is completely melted, then removing the molten soap base, cooling to a temperature of at least 60 ° C and adding to it with stirring 14.75-29.75 wt.% of the pre-prepared liquid part of the antimicrobial filler in the composition in terms of the finished soap: 0.001 wt.% n-hexadecyl triphenylphosphonium bromide, 0.01 wt.% 5,7-dichloro-4, 6-dinitrobenzofuroxan, 0.1 wt.% 4,6-dichloro-5-nitrobenzofuroxan, the rest is water; then add 0.25 wt.% turmeric powder; then add a fragrant fragrance in the amount of 3 drops per 100 grams of soap, selected from the series: oil of mint, lemongrass, eucalyptus, tea tree, almond or juniper; stirring is continued until a uniform consistency is achieved; then they take the molds, spray them with water or ethyl alcohol, pour the soap mass into the molds, and cool them at room temperature.

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