RU2569845C2 - Method of obtaining soap solutions - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: described is method of obtaining soap solutions, which is realised by mixing solvent and SAS of cocamide class with addition of new component gelling agent of gelatine type (pectin, agar, etc.), making it possible to increase film life time. as solvent used is polyatomic alcohol of glycerol type, ethyleneglycol, polyglycerol, sugar syrup, honey or their mixtures, and as SAS used is cocamide DEA, cocamide MEA, cocamide TEA or their mixtures in concentration not lower than 0.1 vol %.

EFFECT: obtaining low-water soap solution, suitable for many applications and creating free thin jelly-like films with life time longer than a week.

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Description

The invention relates to the physics of liquid media, and more specifically to the physics of thin films.

A known method of obtaining soap solutions / 1 /, in which the mixing of the solvent and the surfactant class cocamides. A polyhydric alcohol such as glycerin, polyglycerol, sugar syrup, honey or mixtures thereof is used as a solvent, and cocamide DEA, cocamide MEA, cocamide TEA or their mixture in a concentration of at least 0.1% by volume are used as surfactants. The invention allows to create a method for producing an anhydrous or low-water soap solution suitable for creating free thin films living at room conditions for several days.

But the search for such anhydrous or low-water soap solutions with extended lifetimes continues, since in some cases the resistance of the films is an important factor in their use.

The problem solved by the invention is to provide a method for producing an anhydrous or low-water soap solution suitable for many applications and creating free thin, mirror-smooth, durable films with a life time exceeding a week. The imparting of such resistance to solutions without water or with a small amount of water could be of great importance both in industry and in science and technology.

To solve this problem, the same compounds as Patent 2370523, widely developed compounds of nonionic surfactants of the cocamide class (Cocamid DEA, Cocamide MEA, Cocamide TEA with different chain lengths (CH2) n in their chemical structure) [2], which along with other additives are often used in cosmetic products and water shampoos. Most of the experiments were performed with the compound cocamide diethanolamide (cocamide DEA, Cocamide diethanolamine, CAS # 68603-42-9) mixed with (a few percent) other cocamides (cocamide MEA, cocamide TEA). Its chemical formula is CH ₃ (CH ₂ ) nC (= O) N (CH ₂ CH ₂ OH) ₂ , where n is even but may be variable (n = 10, 12, 14, 16, 18), and the structural form given in [2]. The properties of these surfactants of the cocamide class, which have the characteristics of alcohols and are derived from coconut oil fatty acids, are described in [2, 3].

It is proposed, like Patent 2370523, to use compounds of the cocamide class (cocamide DEA, cocamide MEA, cocamide TEA or a mixture thereof at a concentration of not less than 0.1% by volume) with the same non-aqueous solvents (such as glycerol, ethylene glycol, polyglycerol, as surfactants) sugar syrup, honey or mixtures thereof and solutions) containing not more than 50% water, but with the addition of a new component - gelatiners such as gelatin (pectin, agar, etc.), which significantly changes the properties of the films.

Gelatin (pectin, agar) is an organic product consisting of long molecules and used in industry in the manufacture of marmalades, jellies, as well as in the manufacture of shells of drugs, photographic films and wood glue / 4 /. From an aqueous solution of gelatin, coatings and free transparent films / 5, 6 / are made, which do not live in liquid form for a long time, but find various uses in solid form.

Gelatin is also used to increase the lifetime of simple aqueous soap films (for example, 7), but their lifetime is limited by the evaporation of water from them and usually does not exceed ten minutes.

Viscous solvents described in the prototype can increase the life time of thin films up to several days, but these films, like all known liquid films, decrease their thickness and collapse over time (due to the solution leaving them — drainage).

The addition of gelatin (pectin, agar) with a small amount of water to the components of the solutions of patent 2370523 leads to an unexpected effect.

Heated to 40 ° C, this composition behaves like a normal soap solution, which allows you to create bubbles and films. But when cooling, the gelatin (pectin, agar) in the film "seizes" in a dozen minutes, thickens and, while maintaining transparency, becomes jelly-like. In such a transparent, but gelatinous film there is practically no drainage, and there is no evaporation of liquid components such as glycerin. The result is a stable, jelly-like, but not hard, thin film with a life time of more than a week. The effect is achieved due to the fact that cocamides possess rare properties for use with non-aqueous solutions in which added gelatin (pectin, agar) thickens to a gelatinous state, and as a result, stable not liquid, but not solid films are obtained (with local mechanical failure) films collapse), and upon evaporation of water, such films live for a long time and do not burst.

Example 1. At least 0.1% by volume of DEA cocamide is added to glycerin (without loss of effect, these surfactants of the cocamide class can be added tens of times more), stirred and allowed to stand for several minutes at room temperature. Then add a third (by volume) of a 5% -15% aqueous solution of P-13 grade gelatin (or pectin, agar) heated to 40 ° C. The mixture is heated to 40 ° C and used for the manufacture of films and bubbles. The presence of 0.1% (or more) cocamide in glycerol reduces its tension by half from 63.4 dyne / cm to 30 dyne / cm and allows you to create durable thin soap films from it. Glycerin practically does not evaporate (the pressure of its saturated vapors at room temperature does not exceed 2 × 10 ^-4 Torr), and micron-thick bubbles blown from the heated mixture thicken without transparency, and when water evaporates, they live in the air without changing their shape, more weeks. A photo of 3-6 cm diameter bubbles of glycerol with the addition of cocaine DEA and P-13 gelatin, which have stood in the air for a week, is shown in FIG. 1. Similar bubbles are obtained if, instead of gelatin, pectin or agar are used in the same proportions.

Example 2. In a sealed volume, where there is no evaporation, a free vertical film of such a solution with gelatin (example 1) with a diameter of 10 cm has been preserved for a year and does not change its thickness and its optical properties / 8 /. In this work, a detailed composition of the film is not given.

Example 3. At least 0.1% by volume of DEA cocamide is added to honey or sugar syrup (these surfactants of the cocamide class can be added tens of times more without loss of effect), mixed and allowed to stand for several minutes at room temperature. Then add a third in volume of a 5% -15% aqueous solution of P-13 grade gelatin (pectin, agar) heated to 40 ° C. The mixture is heated to 40 ° C and used for the manufacture of films and bubbles. Micron-thick blown bubbles from the mixture thicken and live in the air, without changing their shape, for more than a week.

              Example 4. Freshly prepared soap-gelatin film and a film that stood in the air for a week (Example 1), due to the smooth surface and mirror reflection, can be used as a partially reflecting mirror with a tunable radius of curvature / 9 /. In this case, after 24 hours in air, the film strength (after evaporation of water from it) increases significantly. Instead of the usual tension for liquid soap films of about 0.07 g / cm, it begins to withstand a load of more than 1 g / cm, which allows pouring various liquids onto such a flat horizontal film, each of which collects, for example, on a round film in the center in the form lenses, and this lens has a high optical quality. In FIG. 2 shows the deflection of a round film with a diameter of 57 mm under the weight of the liquid poured on it. You can pour a polymerizing liquid (for example, an epoxy resin with a hardener), which, solidifying on the film, turns without additional mechanical processing into a finished focusing one, and what is important and interesting for optics is an aspherical lens difficult for mechanical manufacturing / 9 /. Such a lens is suitable in its optical properties for different applications. For example, sunlight focused by such a makeshift lens with a diameter of 15 mm and a focal length of 5 mm sets fire to carbon paper (Fig. 3).

Almost the same result is obtained when other specified cocamides with gelatin (pectin, agar) are added to glycerin, ethylene glycol or polyglycerols, honey, sugar syrup.

It should be noted that, despite the existing wide range of various surfactants for aqueous and non-aqueous solutions and the simplicity of experiments, there are no indications in the literature on the possibility of obtaining, with the help of surfactants and gelatin (pectin, agar), a new type of jelly-like stable living more than a week free and durable thin films, and the proposal made in this application is in no way an obvious consequence of the known properties of gelatin (pectin, agar) in ordinary aqueous soap films, where it is used to increase viscosity, but without thickening Ania. Thus, a special property of the combination of substances - a class of cocamide surfactants with gelatin (pectin, agar), which can give unusual qualities to solvents such as glycerin, ethylene glycol, honey, sugar syrup with the creation of strong gelatinous and dried free thin films, which expands their capabilities, has been discovered. application.

Possible applications

Durable thin, long-lived films can be used as simple protective screens for sensitive optics or exhibits from dust, from exposure to oxygen, as filters or partitions not only in a gaseous environment, but also in liquids (for example, in DBF, inside which such a partition is stored for days ) to study diffusion through them. The mechanical destruction of such a film can serve as a security indicator of an invasion of its enclosed volume. Durable bubbles blown up by methane can rise up or hang in the air and indicate the flow of air.

Colored, long-lived bubbles are attractive to children and can be used as Christmas or other cheap decorations.

Thin films from honey and sugar soap solutions with gelatin (pectin, agar) are of particular interest for quantum electronics as a scientific object for studying narrow non-diverging optical tracks formed in such gelatinous films / 8, 10 / under the influence of light pressure.

The proposed soap-gelatin films can be used as partial mirror reflectors with tunable radii of curvature / 9 /, and also as a basis for casting liquids on them and making self-forming hardening aspherical lenses (axisymmetric and cylindrical) without the need for additional high-precision and usually very laborious machining / 9 /.

The list of listed applications can be significantly expanded, since it far from exhausts the opening up wide possibilities for using soap solutions with gelatin (pectin, agar) and films from them in various fields of industry, science, and technology, as well as to increase the efficiency of dictates during its evolution / 11 /.

Literature

1. PATENT RU 2370523.

2. Cocamide DEA. http://en.wikipedia.org/wiki/Cocamide_DEA.

3. COCAMIDE DEA.

http://www.zohar-bristol.ru/Spezificaz/Cocamide%20DEA%20new-1.htm

4. About gelatin. Wikipedia -

http://ru.wikipedia.org/wiki/%D0%96%D0%B5%D0%BB%D0%B0%D1%82%D0%В8%D0%BD/

5. Gelatin, http://www.ngpedia.ru/id261274p1.html.

6. The dissertation by A. Vaychas http://www.dissercat.com/content/diskretnaya-difraktsiya-lazernogo-izlucheniya-v-bioorganicheskikh-zhidkikh-plenkakh/

7. Gelatin in soap films, http://summercamp.ru/index.php?title=%D0%A7%D0%B5%D0%BC%D0%BF%D0%B8%D0%BE%D0%BD% D0% B0% D1% 82_% D0% BF% D0% BE_% D0% BF% D1% 83% D1% 81% D0% BA% D0% B0% D0% BD% D0% B8% D1% 8E_% D0% BC% D1% 8B% D0% BB% D1% 8C% D0% BD% D1% 8B% D1% 85_% D0% BF% D1% 83% D0% B7% D1% 8B% D1% 80% D0% B5% D0% B9 /

8. Startsev A.B., Stoilov Yu.Yu. “Laser tracks in gelatin film”, Preprint No. 2, (Lebedev Physical Institute), 2014.

9. Stoilov Yu.Yu. “Experiments with a soap-gelatin film”, Preprint No. 12, (Lebedev Physical Institute), 2014.

10. Stoilov Yu.Yu. UFN, 174, 1359 (2004).

11. Kaitukov V.M. "The Evolution of Dictate" (Moscow: Uramos, 1991, 468) (see http://www.philosophyevolution.com/index.htm).

Claims (1)

A method of obtaining soap solutions by mixing a solvent and a surfactant of the class DEA cocamides, MEA cocamide, TEA cocamide or a mixture thereof at a concentration of not less than 0.1% by volume with polyhydric alcohol such as glycerin, ethylene glycol, polyglycerol, sugar syrup, honey or mixtures thereof with a total addition of water not more than 50% by volume, characterized in that a heated 5% -15% gelatin type gelatin solution (pectin, agar) is added to the mixture as a third of the mixture volume.

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