UA68266A - A composition for processing glass articles "azmol brilliance" - Google Patents

Abstract

A composition for processing glass articles "AZMOLBrilliance" contains surface-active substance, glycol, ethyl alcohol and water. According to the invention it contains nonionic surface-active substance neonol AF 9-12 as surface-active substance, as glycol it contains ethylene glycol and/or glycerin, and additionally it contains polyethylene polyamine, trilon B, diethylphtalate and/or dibutylphtalate, urea (carbamide), adsorption-active additive "Amirol-M" and dextrin.

Description

Description of the invention

The invention belongs to warehouses for cleaning glass, including buildings and vehicles, which at the same time prevent their fogging and icing.

A number of compositions for cleaning glass, glass products and porcelain are known. Basically, they are water-alcohol solutions of various surface-active substances with the addition of acetic or oxalic acids, sodium sulfate and tripolyphosphate, ammonium carbonate, and isoamyl acetate. Some of these compounds work at negative temperatures. The compositions are recommended for use in cases of minor greasy contamination of the glass. (L.Ya. 70 Popylov, "Advice to a factory technologist". Lenizdat, 1975, p. 191).

Compositions are used for washing glass containers, in which along with surface-active substances, alkaline electrolytes are added, such as, for example, caustic, soda ash, sodium silicate, trisodium phosphate (P.V.

Naumenko "Synthetic fat substitutes, surfactants and detergents", Moscow, 1960, page 146). However, such alkaline agents chemically affect the glass and with long-term use there is a loss of transparency due to etching.

A well-known composition for processing glass products (a.s. USSR Mo1662968, 5 СО3С23/00, С11Д7/04, 19.06.89), which includes citric acid, a complex-forming compound from a number of aminoacetic acid derivatives, ammonium fluoride, potassium nitrate and water.

The sodium salt of ethylenediaminetetraacetic acid glycerine ether is added to the detergent for washing glassware (as. USSR Mo1641875, 5C11D, 21.11.88), which contains water and sodium alkylsulfonate, to increase the degree of cleaning, by eliminating the formation of spots during drying.

According to the application (Japan, MoZ - 52790, C11D, 13.08.91 Mo3 - 1320) to remove a liquid oil film, for example, from a car windshield, sodium or potassium peroxocarbonate is used as an effective component of the proposed preparation. 29 For effective cleaning of contact lenses, a composition containing one or more cyclodextrins in combination with an antimicrobial agent is used (RSTLAMO, С11Д, 3/22, application 92/07656, 04/30/92).

The liquid detergent composition for heavy pollution (USA, application 5 073292, 5 C11D, 17.12.91 g.) contains enzymes from lipases, proteases and proteins with substitutes that contain quaternary nitrogen, along with a mixture of anionic, cationic and neonogenic surfactants. what

A well-known detergent for cleaning hard surfaces (from steel, non-ferrous and light metals, glass) and washing (Ge) colored textiles, which contains surfactants, sodium tripolyphosphate, disodium phosphate, oxalic and sulfamic acids, sodium perborate and sulfate, and water ( Patent of Ukraine Mo3911, p

SLID, 27.12.94) and a detergent for industrial purposes, used in the inter-operational Ge) washing-cleaning treatment of products made of metal, glass, plastics, which, along with surface-active substances 395 and sodium tripolyphosphate, mainly contains alkaline components - technical soda ash (50-6095) and technical caustic soda (pat. of Ukraine Mo23947, C11D 31.08.98)

These formulations do not have sufficient cleaning capacity, do not exclude chemical effects on glass, have narrow-profile use and are used, mainly, at a positive temperature. "

The closest technical solution to the claimed invention in terms of composition and purpose is a means for cleaning glass З с 50 (а, с. USSR Мо1684326, 5 С11 06.10.89) (prototype), which contains the ingredients, by weight: n » alkyl sulfonate 0 ,1-5 " sodium salt of di-2-ethylhexyl ester of sulfosuccinic acid 0.05-0.2 me) sodium acetic acid 0.1-04 (o) diethylene glycol 0.005-0.5 urotropin 0.1-0.5 o dye . sufficient cleaning capacity, as well as the ability to resist fogging and frosting of the glass.

The basis of the invention is the task of creating a composition for processing glass products of multi-purpose 60 application in a wide temperature range with increased cleaning capacity, which ensures the prevention of fogging and icing of glass using available components approved as raw materials for the production of synthetic detergents and technical detergents, which produced in Ukraine.

The task is achieved by the fact that the proposed composition for processing glass products is a composition that includes a surface-active substance, ethyl alcohol, a compound containing nitrogen with condensing and coagulating properties, glycol and water. As a surface-active substance includes -D-

polyoxyethylated ether of alkylphenol (neonol AF 9-12), as a compound containing nitrogen with condensing and coagulant properties - urea (urea), as glycol-ethylene glycol and/or glycerin and additionally contains polyethylene polyamine trilon B, diethyl phthalate and/or dibutyl phthalate, adsorption - active additive "Amyrol-M" and dextrin with the following ratio of components, by weight: polyethylene polyamine 0.5-0.3 trilon B 0.5-0.73 urea (urea) 0.7-1.3 76 diethyl phthalate and /or dibutyl phthalate 0.05-0.15 adsorption-active additive "Amyrol-M" 0.28-0.46 neonol AF 9-12 2.8-4.0 ethylene glycol and/or glycerin 12-18 dextrin 0.12 -0.05 ethyl alcohol 23-27 distilled water up to 100

The proposed composition for cleaning glass products is made from available raw materials, the general characteristics of which are given below.

Trilon B (sodium salt of ethylenediaminetetraacetic acid), GOST 10652-73 - as a substance that has a strong tendency to form strong complex compounds with a number of metals, it is used to separate some elements and soften water.

Urea (carbamide) - GOST 6691-67 - is widely used in industry as a raw material for the production of urea resins, hydrazine, synthetic fibers, in the oil industry for deparaffinization of oils, is part of hygiene products, in crop production - as a nitrogen fertilizer, in animal husbandry - as an additive to fodder.

Polyethylene polyamine, TU 5-02-594-85, is used as a hardener in epoxy adhesives and resins, a component in compositions with high adhesive properties, a surface-active substance of wide purpose. Diethyl phthalate, TU 64-19-134, serves as a plasticizer for polymers, a denaturing agent for alcohols, and a fixative for perfume smells. ise)

Dibutyl phthalate, GOST 8727-88, is used as a plasticizer in the production of vinyl resins, cable plasticizers, artificial leather, and rubber engineering products.

Adsorption-active additive "Amyrol-M" - TU 38.301-48-49-97, is used in the form of an aqueous mixture of compounds for mechanical processing of metals in mechanical engineering, as a water-soluble binder of abrasive pastes and suspensions for machine proofing and polishing of metal surfaces, for processing semiconductor and dielectric materials with a diamond tool, and also as a substitute for coconut oil in soap making (pat. of Ukraine 20868).

Neonol AF 9-12, TU 38.507-63-300-93, is a polyoxyethylated ether of alkylphenol, used in the production of detergents, lubricating and cooling fluids. "

Ethylene glycol - GOST 19710-83 mixed with water is used as an antifreeze, it is used in the production of plastics, in the textile, perfumery and other industries.

Glycerin (distilled) - GOST 6824-96, used in the production of explosives, synthetic resins, as a softener in the textile and leather industry, as a component in perfumery, pharmaceutical and cosmetic preparations.

Dextrins GOST 6034-74 - are used in the textile industry as a component of dye punching, in

FO for the cardboard, printing and shoe industries, as an adhesive.

Ethyl alcohol (technical), GOST 17299-78 or GOST 5762-67 is widely used in many different industries; including as a solvent in the production of antifreeze, for production

Ge disinfectants, detergents. 20 Components of an organic-inorganic nature are introduced into the proposed composition for cleaning glass products

Me, multipurpose, capable of various chemical transformations. Therefore, it is a necessary condition for obtaining

Ф of the final product with the set of properties determined by the authors of the proposed invention is the implementation of technological operations in the established sequence and compliance with the norms of the technological regime.

The production of the proposed composition for cleaning glass products, called "Azmol Blesk", consists in the following.

The reactor, equipped with a mechanical stirring device and a shell for heating and cooling, is filled with a heat carrier at the rate of 1 ton of the finished product, 250 kg of water, heated to 50-55752 and successively fed with stirring until complete dissolution of 2 kg of polyethylene polyamide, 6 b, 15 kg of Trilon B, 1 TO kg urea, 1 kg of diethyl phthalate and/or dibutyl phthalate and 3.7 kg of adsorption-active additive "Amyrol M". in Trilon B is an organic complexing agent that is used to bind ions of heavy metals in a wide range of pH values by forming soluble compounds with them, contributing to the softening of water, as well as increasing the solubility of surface-active substances introduced into of the proposed composition at the next stages of the technological process.

But, since the total amount of trilon B is higher than stoichiometrically necessary to perform this function, in5 its reactivity remains not exhausted and in the following stages of the technological process it serves as a source for creating the necessary alkalinity in order to obtain the hydrolysis of urea and polyethylene polyamide, which takes place in an aqueous environment.

Adsorption-active supplement "Amyrol-M" contains in its composition triethanolamine soap hydroxy acids: tchnenO.sSNnUNAsook- pkssoOoN (t-1,p-z), complex amine esters: snAsnisOok vsoo-ne-niM snAsnySsOoO, 70 internal esters - lactones , esters that are simultaneously oxyacids - estolides, double esters - lactides. "Amyrol-M" is a rather viscous product that dissolves well in hard water, is prone to solvation and solubilization, has bactericidal resistance, the ability to biodegrade, and is safe from a toxicological point of view, which determines the possibility of its use as a component in the composition of toilet and 7/5 of household soap. It was experimentally established that "Amyrol-M" actively reacts with urea.

It is possible to assume that urea, due to its high reactivity, interacts according to one of the known mechanisms with the amines contained in it, with the formation of condensation products of the type: nachesn IM NSOMNiSN rt

But "Amyrol-M", as mentioned above, in addition to amino derivatives, includes a number of other compounds with various functional groups capable of reacting with trilon B in addition to urea, so it is difficult to predict the priority directions of the reactions taking place in a general theoretical interpretation.

The reaction mixture is stirred for 1.5-2 hours and after obtaining a homogeneous mass, without changing the parameters of the technological process, 34 kg of neonol AF 9-12 is introduced, which, in combination with "Amyrol-M", synergistically contributes to the improvement of the detergent, emulsifying and solubilizing ability of the composition, providing at

This is an increase in displacement. "

Due to the rather high reactivity of the components, their co-solubility is accompanied by a chemical reaction that causes foaming of the product, which stops after 0.5-1 hour of mixing. At the same time, the resulting mixture becomes cloudy.

Its transparency is restored by adding 150 kg of ethylene glycol (and/or glycerin) followed by mixing (Ce) of the substrate for 1 hour.

Ethylene glycol (like glycerin) itself is a good solvent for a number of contaminants, and in this version of the detergent composition, it also performs the function of a co-solvent of substances obtained at the previous stages of the technological process, and in combination with other components prevents icing glass

At the next stage of the technological process, without changing its conditions, 0.35 kg of dextrin is added to the obtained substrate. Dextrin is introduced in portions, successively after complete dissolution of each previous portion. (Se)

The total duration of dextrin dissolution is 0.5-1 hour.

Dextrin is an additive with various technological functions: it improves the adsorption and solubilizing properties of the composition, and in combination with polyethylene polyamine and diethyl phthalate (and/or dibutyl phthalate) as a result of high chemisorption capacity, it serves as the basic basis of the protective film that covers the glass after cleaning and acts as a gasket when protecting the glass from fogging. - c The essence of the action of additives that are applied from a solution to the surface of the glass is that their presence prevents the condensation of moisture into small drops (fogging), which sharply impair visibility. ,» Further, the obtained substrate is dissolved in 292.8 kg of water, which is added to the reactor in a thin stream with active mixing of the product for 0.5-1 hour. At the same time, the temperature in the reactor drops to 400-456. (o) In this way, a water-glycol solution of a detergent composition with high detergent, anti-resorption, because anti-corrosion properties, sufficient spreadability, but with an opalescence effect, which could serve as a prerequisite for its instability, is obtained. At the final stage of the technological process, 250 kg of ethyl alcohol is introduced into the reactor, which is itself a cleaning agent from many impurities, serves, in addition, as a co-solvent for all components of the detergent composition, ensures its operability at negative temperatures, regulated, depending on conditions 4) of use, the ratio of alcohol and water added to the contents of the reactor at the two final stages of the technological process.

After thorough mixing for 1-1.5 hours and achieving homogeneity, the finished product is poured into the container. c» The total duration of the technological process of obtaining a composition for processing glass products "Azmol Blesk" is about 15 hours.

A characteristic feature of "Azmol Blesk", which includes polyethylene polyamine, trilon B, urea, diethyl phthalate or dibutyl phthalate, adsorption-active additive "Amyrol-M", neonol AF 9-12, ethylene glycol, dextrin, 60 ethyl alcohol and water, is that that after appropriate chemical transformations, the final product is obtained, in which the components of its compounds are in a chemically passive form, which excludes the possibility of their interaction or influence on the change of chemical nature during the storage process.

In addition, the synergistic effect of all elements of the composition determines the combination in the proposed composition of a number of valuable technical properties to ensure the achievement of various technological effects, such as 65 for example, water flowing off the glass surface in a film rather than a jet and droplet, as a result of which during subsequent drying on it no residual traces remain.

The proposed composition can also be used as an anti-icing agent for glass, since the film that forms on them after applying the composition, having high adhesion to glass and low adhesion to ice, prevents it from sticking.

Since the composition is effective both at positive and negative temperatures, it can be used to de-ice the glass of buildings and vehicles in winter.

Depending on the contamination of the treated surface and the ambient temperature, the concentration of the solution of the proposed composition can be adjusted by adding water or alcohol.

Samples of the composition for 7/0 processing of glass products, listed in Table 1, were made with the use of the above components according to the above technology. iv wine 00001110000104 05 | ol o/z ov

Deyutino 77777111 001 | 002 0035 005 | ov

The proposed phasing and mode of the technological process, as well as the ratio of components and the order of their "loading" are determined by the focus on obtaining an effective final product.

Other variants of the technological process, tested by the authors during the development of the proposed composition, lead to a decrease in its quality. In addition, the selection of raw components in a certain combination and the method of their technological processing allowed the authors to obtain a composition for processing glass products with universal properties in relation to its application. ise)

The claimed composition and the prototype were analyzed according to the specifications with the results given in Table 2.

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Cleansing capacity, 00514 3046 B in y" Freezing impact metallic vyhsi 000 protyayumsyayud 00000111 4

F

Change in volume of umitoosteozotYAO 1111 so yu 5

Ф Impact-painted steel frame 01010011

F pn p o o o V RUT nn i o o o PO VSU » To determine the cleaning ability, a certain amount (0.01-0.02 g) of a model pollutant was applied in an even layer to glass plates, previously degreased and dried between sheets of filter paper, kept in the air for 2-3 hours. The plate was washed by immersing it in a cleaning solution, because the time it takes to completely clean the plates from contamination is a criterion for the cleaning action.

In the conditions of operation, it is possible to clean glass products from contamination either manually, with the use of a stationary bath and jet installations, a car windshield cleaner, etc.

The data given in Table 2 show that the composition for processing glass products "Azmol Blesk" is a product with a density at 202C of 1.0124g/cm?, which solidifies at a temperature of -437C, which was one of the conditions during its 65 development .

The proposed composition is stable during storage, has anti-corrosion, biocidal properties, a fairly high cleaning capacity, does not have a negative effect on rubber, therefore it is safe in contact with metal or rubber in the case of cleaning the glass of vehicles.

Sample C with rational alkalinity, the highest cleaning properties, workable in a wide temperature range, which has the least effect on rubber, prevents fogging and frosting of the glass, was accepted as the optimal one.

Deviation of the quantitative ratio of components in compositions 1 and 5 from the declared limits (samples 2, 3, 4) leads to a violation of the balance of ingredients that determine the achievement of the desired result when using the composition against icing and fogging of the glass, deterioration of stability and violation of film 7/0 water flow from a glass surface (sample 5).

Research and industrial sample of composition for processing glass products "Azmol Blesk" is currently undergoing all-season tests at CJSC "AvtoZAZ-Deu",

Positive results were obtained regarding the use of the composition on vehicles in the autumn-winter period in the regions of the North of Russia at negative temperatures. And also during all-season tests in Ukraine.

Claims (1)

The formula of the invention is a composition for the treatment of glass products containing a surface-active substance, glycol, ethyl alcohol and water, which is distinguished by the fact that as a surface-active substance it contains a non-ionic surface-active substance neonol AF 9-12, as a glycol - ethylene glycol and / or glycerin, and additionally contains polyethylene polyamine, trilon B, diethyl phthalate and/or dibutyl phthalate, urea (carbamide), adsorption-active additive "Amyrol-M" and dextrin, with the following ratio of components, 9% by weight: 29 polyethylene polyamine 0.1- 0.3 "trilon B 0.5-0.73 urea (urea) 0.7-1.3 diethyl phthalate and/or dibutyl phthalate 0.05-0.15 "o z adsorption-active additive "Amyrol-M" 0, 28-0.46 nonionic surfactant neonol AF 9-12 2.8-4.0 (se) ethylene glycol and/or glycerin 12-18 s dextrin 0.02-0.05 ethyl alcohol 23-27 (2, 0) water distilled to 100. Ge) Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 7, 15.07.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. yar RUKY TR o) . and? (o) (ee) name) (about) 4) 60 b5