Gelled system of surface-active substance, which contains microfibrous cellulose, and method of its obtaining

IPC classes for russian patent Gelled system of surface-active substance, which contains microfibrous cellulose, and method of its obtaining (RU 2485937):

C11D3/37 - Polymers

C11D3/14 - Pigments; Fillers; Abrasives

C11D1 - Surface-active non-soap detergents

A61Q5/02 - MEDICAL OR VETERINARY SCIENCE; HYGIENE

A61Q19/10 - MEDICAL OR VETERINARY SCIENCE; HYGIENE

A61K8/73 - PREPARATIONS FOR MEDICAL, DENTAL, OR TOILET PURPOSES (devices or methods specially adapted for bringing pharmaceutical products into particular physical or administering forms A61J0003000000; chemical aspects of, or use of materials for deodorisation of air, for disinfection or sterilisation, or for bandages, dressings, absorbent pads or surgical articles A61L)

Another patents in same IPC classes:

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Method relates to means for cleaning hard surface, which contains sulfonol, soda ash, odorant and slime of industrial waste. Into means introduced are slime of wet gas purification of steel-smelting production with fraction 5-100 mcm, mineral slime of protein-vitamin concentrate production and iodinol. Cleaning means contains components in following ratio, wt %: sulfonol - 3-5; soda ash - 20-25; odorant - 0.5-1.2; mineral slime of protein-vitamin concentrate production - 40-46; slime of wet gas purification of steel-smelting production with fraction 5-100 mcm 18.6-33.9; iodinol - 2.6-4.2. Invention also relates to line of said cleaning means manufacturing, which contains reservoirs for sulfonol, soda ash, odorant, waste of protein-vitamin concentrate production, mixer, reserve reservoir of final product, bunker-accumulator, weight measuring device, means of final product prepacking, packing and transportation. Line is equipped with connected means of transportation receiving bunkers for periodic filling of iodinol, wet gas purification slime of steel-smelting production and wastes of protein-vitamin concentrate production, wastes dryer, intermediate bunker with measuring device for dried waste delivery, crasher, classifier of conditioned and non-conditioned parts of cleaning means components, intermediate reservoirs and dust-catchers with means for hard sediment return.

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Invention relates to liquid compositions for cleaning solid surfaces and is proved in the form of clear liquid gel with abrasive component and includes one or several cleaning surfactants, abrasive particles, thickening agent and, if necessary, optional components. Abrasive particles dispersed in liquid gel are macroscopic with average particle size between 0.5 and 2.5 mm, all particles having particle size deviation limits ±70% from average particle size.

Decontaminating and foaming aqueous solution / 2484869

Invention relates to a decontaminating and foaming aqueous solution, a composition for preparation thereof, use of such a solution, a method of decontaminating surfaces and a method of destroying explosives. The decontaminating and foaming aqueous solution contains the following, in weight percentages with respect to the total weight of the composition: 0.1-20% of a water-soluble organic or inorganic peroxide agent; 0.05-20% an anionic surfactant; 0.1-20% of an amine oxide; 0-5% of a stabiliser for the peroxide agent; 0-10% of an amphoteric surfactant; 0-15% of an alkaline buffer solution; a component which supplements the amount to 100% and which is water. The water-soluble organic or inorganic peroxide agent is selected from: organic peroxy acids of formula R'-CO₃H, where R' is a linear or branched alkyl containing 1-4 and preferably 1-3 carbon atoms, and their salts of alkali and alkali-earth metals, ammonium or hydroxyl amines; organic peroxy acids of general formula HO₃C-R'-CO₃H, where R' is a linear or branched alkylene containing 1-4 and preferably 1-3 carbon atoms, and their salts of alkali and alkali-earth metals, ammonia or hydroxyl amines; organic peroxy acids of general formula R"-(F) (CO₃H)_n(CO₂H)_m, where R" is hydrogen or a linear or branched alkylene containing 1-4 carbon atoms, (F) is a benzene ring, n=1 or 2, m=0 or 1, and their salts of alkali and alkali-earth metals, ammonia or hydroxyl amines; inorganic peroxides selected from adducts of H₂O₂, salts of peroxy acids, inorganic peroxy acids and their salts of alkali metals; mixtures of said peroxide compounds. The pH of said aqueous solution ranges from 7 to 11.

FIELD: medicine, pharmaceutics.

SUBSTANCE: group of inventions relates to water composition, which includes system with high content of surface-active substances and to method of claimed system obtaining. Claimed composition is transparent and includes system, which contains microfibrous cellulose in concentration from 0.05% to 0.15% wt/wt, surface-active substance in concentration from 51% to 99% wt/wt, and suspension particles of inclusions. Method of obtaining system with high content of surface-active substances includes combination of microfibrous cellulose with water and mixing with high shear strain, addition of surface-active substance and following mixing and addition of inclusion particles while mixing.

EFFECT: group of inventions ensures obtaining stable and transparent compositions with high content of surface-active substances.

20 cl, 4 ex

PRIOR art

Products on the basis of surface-active substances, such as tools for body wash, shampoo, bubble bath, means for washing, detergents for dishwashing machines, tools, Laundry, car detergents, cleaning liquids toilets, concentrated surfactants, fire blowing means and other, often is infilled by using high concentrations of surface-active substances, through a combination of surface-active substances with a synergistic effect on the viscosity or by combining surface-active substances with small amounts of salts, for example sodium salts. Such compositions allow to obtain products with high viscosity, which look dense and homogeneous, but they have a limitation, which is that these products do not provide a sufficiently low shear viscosity to obtain a suspension of particles. Such particles can be additive that improves the appearance (decorative balls, tools, giving pearl glitter, bubbles, scented granules and the like), or active ingredients (insoluble enzymes encapsulated active substances, such as humectants, zeolites, exfoliating tools (e.g., alpha-gidroksistil what you and/or glycolic acid or polyethylene beads), vitamins (e.g. vitamin E)), and the like, or both.

Standard thickeners and tools, contributing to the formation of suspensions, such as xanthan gum, carboxymethylcellulose (CMC), hydroxyethylcellulose (NES), hypromellose (receiver array) and many types of polyacrylates, do not function well enough at high concentrations of surfactants or in thickened systems, surfactants, and often lead to the loss of transparency due to the dimness, gelation and/or phase separation, or loss of sufficient suspendida properties. For example, xanthan gum has an excellent suspendresume properties in some compositions compositions for body wash with a low thickening of surface-active substances, but this gum is often loses its suspendresume properties in systems with high thickening of surface-active substances, which leads to a cloudy, non-uniform product and to grainy or lumpy texture. Pulp products (CMC, BORE, receiver array, and others), which is another example of a standard thickeners provide unstable suspension and have significant limitations with respect to their compatibility with surfactants. Often use of acrylate systems, but these systems do not always provide the t sufficient level of transparency, require high concentrations of the polymer and are not considered natural. Salt is often able to lower high shear viscosity in dense systems of surface-active substances, but they do not provide long suspendida properties.

So now for industries producing consumer goods, it is desirable to obtain a transparent gelled system surface-active substances suspended in their particle inclusions, as well as a means of facilitating the formation of a suspension, for use in systems with a high content of surface-active substances, where there exist several alternative thickeners.

It was found that microfiber cellulose (MFC), obtained using bacteria or other means can be used to obtain a suspension of particles inclusions in thickened systems, surface-active substances, as well as in compositions with high concentrations of surfactants. It was also found that the MFC can be used for this purpose with excipients or without them. If you use the microfiber pulp obtained by bacteria, it is possible to remove cellular debris, which will provide transparent solutions at commonly used concentrations.

On the microfiber pulp, apparently, not affected by the formation of micelles of surfactants, and it supports a good quality of suspension in these systems. Microfiber cellulose has a unique ability to function in these systems, largely because it is more dispersed than solubilizated, thereby provide good suspension properties in these compositions, which otherwise would occur turbidity and/or sedimentation, are often observed when using alternative solubilizing polymers.

The INVENTION

The described system of surface-active substances containing cellulose microfiber. The term "system of surface-active substances" includes, but is not limited to this dense system of surface-active substances and systems containing high concentrations of surfactants. Microfiber cellulose (MFC) includes MFC obtained by microbial fermentation, and MFC obtained by mechanical shredding/destruction of the cellulose fibers derived from grasses, wood or cotton. If you use the microfiber pulp obtained by bacteria, it is possible to remove cellular debris, which will provide transparent solutions at commonly used concentrations. In the present invention surfactants used to produce very thick (high viscosity) systems with high shear viscosity, containing suspended particles in them inclusions, due to the use of the microfiber pulp.

The concentration of surfactants in these systems varies from about 5% to about 99% (mass percent active surfactant), although the exact concentration depends on the product. Compositions for body wash usually contain from about 5 mass % to about 15 mass % of a surfactant, liquid, means for washing dishes usually contain from about 20 mass % to about 40 mass % surfactant (concentration equal to 40%, which is characteristic for ultraconservatives" product), and means for washing Laundry typically contain from about 15 mass % to about 50 mass % of a surfactant. Industrial concentrates surfactants (for subsequent dilution in the process of production or consumer) may have a concentration of surfactants, close to 100% in the case of non-ionic surfactants or exceeding 50% in the case of anionic surfactants. Such concentrates can be used for production of consumer goods such as bubble bath or shampoo, or for applications such as fire-fighting foam, when the surface-and the active substance when used diluted. These concentrates can be added MFC to increase the shear viscosity of the concentrate or diluted system. MFC is present in such systems in concentrations from about 0.05% to about 1.0%, but the concentration will depend on the desired product.

For example, if the suspension of small air bubbles in the system containing 80% surface-active substances, it is preferable to use about to 0.06 mass % MFC, the system containing 99% of surface-active substances, for suspension of air bubbles, it is preferable to use about 0,078 mass % MFC, and in a system containing about 40 mass % of a surfactant, for suspension of air bubbles or balls it is preferable to use about 0,150 mass % MFC. In addition, the concentration of MFC can be adjusted accordingly, if it is desirable to obtain a system with high transparency. More specifically, very transparent composition for body wash at a concentration of active surfactant in the range from about 5 mass % to about 15 mass % can be obtained when the concentration of the MFC from about 0,055 mass % to approximately to 0.25 mass %.

Particle inclusions, to be suspendirovanie, can be a way of improving the appearance (decorative balls, tools, giving enquiry Shine, air bubbles, scented granules and the like), or active ingredients (insoluble enzymes encapsulated active substances, such as humectants, zeolites, exfoliating tools (e.g., alpha-hydroxy acid and/or glycolic acid or polyethylene beads), vitamins (e.g. vitamin E) and the like, or both. Specialist in the art will be apparent, other suitable particles.

The invention also relates to the use of auxiliary substances and/or substances that facilitate technological process, such as CMC, xanthan and/or guar gum, together with microfiber cellulose systems surfactants described above. A mixture containing cellulose microfiber, are products of the microfiber pulp containing excipients. Describes two mixtures: a mixture containing MFC, xanthan gum and CMC in the ratio 6:3:1, and the mixture containing MFC, guar gum and CMC in the ratio 3:1:1. These compounds provide the possibility of obtaining MFC in the form of a dry product that can "activate" high shear deformation or intensive mixing in water or other solutions based on water. "Activation" occurs when a mixture containing MFC, add in water, and is hydrated auxiliary substances/substances that facilitate those the technological process. After hydration of auxiliary substances/substances that facilitate the process usually requires high shear deformation for the effective dispersion of the fibers of the microfiber pulp with obtaining three-dimensional functional network, which has a true yield stress. It was unexpectedly found that the auxiliary substance and/or substance that facilitates the production process, such as CMC, xanthan or guar gum present in such mixtures on the basis of the microfiber pulp remains solubilisation (after activation in water) in many compositions with a high content of surface-active substances, despite the usual lack of compatibility with systems with a high content of surfactants, that is likely due to low concentrations of these polymers in compositions containing MFC.

The invention also relates to methods of producing the described systems surface-active agents, whether or not containing auxiliary substances and/or substances that facilitate the process.

The above invention will become clearer after reading the information, confirming the possibility of carrying out the invention.

INFORMATION CONFIRMING the POSSIBILITY of carrying out the INVENTION

Dissolve the s, containing high concentrations of surfactants were prepared using the microfiber pulp together with auxiliary substances, with or without excipients. the pH of the systems described in this application, ranged from about 2 to about 12.

Example 1

Thickened solution containing 80% non-ionic surfactant, was prepared using 0.1% of the mixture based on the microfiber pulp (a mixture of MFC/xanthan gum/CMC in the ratio 6:3:1). First, there was prepared a concentrate containing 0.5% of the mixture based on the microfiber pulp (a mixture of MFC/xanthan gum/CMC in the ratio 6:3:1) in deionized water. 40 g of this solution was placed in a beaker of 250 ml, and then slowly added 160 g of undiluted Triton^®X-100 (~100% active Octoxynol-9 production company Union Carbide) at a stirring speed of 600 rpm with a paddle stirrer "Jiffy". The resulting solution had a high transparency on the results of visual inspection and had the ability of suspended plastic pellets, capsules, beads Gellan gum and bubbles. The yield strength was equal to 0.33 PA at a pH of 5.3 (measurement rheometer for measuring yield stress Brookfield^®).

Example 2

Thickened solution is aderrasi 80% non-ionic surfactants, was prepared using 0.1% of the mixture based on the microfiber pulp (a mixture of MFC/xanthan gum/CMC in the ratio 6:3:1). First, there was prepared a concentrate containing 0.5% of the mixture based on the microfiber pulp (a mixture of MFC/xanthan gum/CMC in the ratio 6:3:1) in deionized water. 40 g of this solution was placed in a beaker of 250 ml, and then slowly added 160 g of undiluted Tween^®20 (-100% active Polysorbate 20 production company ICI) under stirring speed of 600 rpm with a paddle stirrer "Jiffy". The resulting solution had a high transparency on the results of visual inspection and had the ability of suspended plastic pellets, capsules, capsules of gum Arabic and air bubbles. The yield strength was equal to 0.11 PA at pH 6.0 (measurement rheometer for measuring yield stress Brookfield^®).

Example 3

Thickened solution containing 99% non-ionic surfactant, was prepared using the microfiber pulp in the form of a filter cake. 0,78% filtered precipitate was added to undiluted Triton X-100 and stirred using a mixer Oster^®at the speed of "liquefaction" (maximum speed) for 5 minutes. Activity (%solids) in MFC forms is filtered precipitate was approximately 16%, so the concentration of the active MFC in a surface-active substance was equal to 0.125 per cent. The resulting solution had a high transparency on the results of visual inspection and had the ability of suspended plastic pellets, capsules, capsules of gum Arabic and air bubbles. The solution was wearisomely under vacuum and measured yield strength. The solution had good transparency with a slight turbidity according to the results of visual inspections and a yield strength equal to 14.6 PA.

Example 4

Thickened solution containing 99% non-ionic surfactant, was prepared using the microfiber pulp in the form of a filter cake. 0,78% filtered precipitate was added to undiluted Tween^®20 and was stirred using a mixer Oster^®at the speed of "liquefaction" (maximum speed) for 5 minutes. Activity (%solids) MFC in the form of filtered sludge was approximately 16%, so that the concentration of the active MFC in a surface-active substance was equal to 0.125 per cent. The resulting solution had a high transparency on the results of visual inspection and had the ability of suspended plastic pellets, capsules, capsules of gum Arabic and air bubbles. The solution was wearisomely under vacuum and edit the reali yield strength. The solution had good transparency with a slight turbidity according to the results of visual inspections and a yield strength equal to 17.8 PA.

1. The water composition, including a system with a high content of surfactants containing microfiber cellulose in a concentration of from 0.05% to 0.15% (wt./wt.), surfactant in a concentration of from 51% to 99% (wt./wt. active surfactant) and suspended particle inclusions, and the water composition is transparent.

2. The aqueous composition according to claim 1, wherein the microfiber cellulose is present in a concentration equal to 0.06%.

3. The aqueous composition according to claim 1, wherein the microfiber cellulose is present in a concentration equal to 0,075%.

4. The aqueous composition according to claim 1, wherein the microfiber cellulose is present in a concentration equal to 0.125 per cent.

5. The aqueous composition according to claim 2, characterized in that the surfactant is present at a concentration equal to 80% (wt./wt. active surfactant).

6. The aqueous composition according to claim 5, characterized in that the particles inclusions contain air bubbles.

7. The aqueous composition according to claim 4, characterized in that the surfactant is present at a concentration equal to 99% (wt./wt. the active surface of activegeodiv).

8. The aqueous composition according to claim 5, characterized in that the pH is in the range from 3 to 11.

9. The aqueous composition according to claim 7, characterized in that the pH is in the range from 3 to 11.

10. The aqueous composition according to claim 1, characterized in that the cellulose microfiber is contained in it in the form of a mixture microfiber cellulose, xanthan gum and carboxymethyl cellulose in the ratio 6:3:1.

11. The aqueous composition according to claim 1, characterized in that the cellulose microfiber is contained in it in the form of a mixture microfiber cellulose, a guar gum and carboxymethyl cellulose in a ratio of 3:1:1.

12. A method of obtaining a system of surface-active substances, comprising combining the microfiber pulp with water and mixing with a high shear deformation; adding a surfactant and subsequent stirring; adding particles of impurities, followed by stirring, and microfiber cellulose is present in a concentration of from 0.05% to 0.15% (wt./wt.), as surface-active substance is present in a concentration of from 51% to 99% (wt./wt. active surfactant), while the resulting system is transparent and particle inclusions suspended in the system.

13. The method according to item 12, wherein the microfiber cellulose is present in a concentration equal to 0.06%.

14. Im is indicated in paragraph 12, wherein the microfiber cellulose is present in a concentration equal to 0,075%.

15. The method according to item 12, wherein the microfiber cellulose is present in a concentration equal to 0.125 per cent.

16. The method according to item 12, wherein the surfactant is present at a concentration equal to 80% (wt./wt. active surfactant).

17. The method according to item 12, wherein the surfactant is present at a concentration equal to 99% (wt./wt. active surfactant).

18. The method according to any of PP-17, characterized in that the microfiber pulp obtained in the form of a dry product, including auxiliary substance.

19. The method according to item 12, wherein the microfiber pulp is present in the form of a mixture microfiber cellulose, xanthan gum and carboxymethyl cellulose in the ratio 6:3:1.

20. The method according to item 12, wherein the microfiber pulp contained in it in the form of a mixture microfiber cellulose, a guar gum and carboxymethyl cellulose in a ratio of 3:1:1.