RU2269558C1 - Polishing composite for paint and varnish coat care - Google Patents

Abstract

FIELD: polishing materials.

SUBSTANCE: invention describes a polishing composite for pant and varnish coats care that comprises wax-like compound, silicone oil, alcohol, hydrocarbon solvent, fatty acid, linear polymers of molecular mass 160 x 10³ Da, not above, and water. The composite comprises additionally 8-10% aqueous suspension of nanodiamonds of detonation synthesis with particles size 4-6 nm, di- or triethanolamine. As a wax-like compound the composite comprises mixtures of waxes showing melting points 72-85°C and 83-91°C, respectively, taken in the ratio = (0.35-0.5):(0.5-65) (weight parts) and in the following ratio of components in the composite, wt.-%: mixture of waxes, 4.5-6.5; linear polymers of molecular mass 160 x 10³ Da, not above, 0.1-0.35; hydrocarbon solvent, 8-10; alcohol, 1-3; fatty acid, 3-5; di- or triethanolamine, 1-3; silicone oil, 2-3; aqueous suspension of nanodiamonds, 0.2-1.2, and water, the balance. The composite can comprise biocide and perfume additionally. Invention provides improvement of penetrating capacity of the polishing composite into surface micropores of paint and varnish material in its treatment and enhancing the formed coat strength by moisture resistance and atmosphere resistance, among them, to UV-radiation.

EFFECT: improved and valuable properties of composite.

7 cl, 2 tbl

Description

Paint polish

The invention relates to the field of household chemicals and can be used in the manufacture of polishing agents for caring for coatings deposited on metal surfaces of products subjected to atmospheric and operational influences, and, in particular, for caring for coatings of car bodies.

Known compositions for polishing agents containing various waxes, paraffins, mineral oils, solvents, organosilicon liquids, etc., including a composition containing mixtures of resins, solvents in the form of white spirit and lighting kerosene, silicone fluid and other additives (see TU 6-15-1546-86, 1986). When processing a known composition of paint coatings, shine is maintained, protected from atmospheric air and the removal of contaminants not washed off by water.

However, the known composition is ineffective in polishing ability and has high toxicity.

Known polishing composition based on wax, intended for the treatment and protection of coatings, in particular, car bodies (see US patent No. 4592934, 1986).

The composition contains saponified carbon wax, an amine-containing polysiloxane, an abrasive, ethylene glycol (as a stabilizer), a preservative, an aqueous emulsion based on paraffin, wax, polymethylsiloxane, an aromatic hydrocarbon.

This composition with high polishing ability does not exclude sub-film corrosion of the metal under the paintwork and especially in the presence of microcracks, chips, and other surface damage.

The polishing composition according to patent RU No. 2192442, 2002, along with the polishing ability has a preservative effect. This composition contains a wax-forming compound in the form of paraffin, fatty acid, silicone oil, hydrocarbon solvent, water, a linear polymer with a molecular weight of not more than 160 · 10 ³ to increase the polishing ability of the composition.

Additionally, the composition contains an organosilicon varnish in the form of a 30% toluene solution of polymethylphenylsiloxane.

The effectiveness of the polishing ability of the known composition for the refinement and gloss of the paintwork largely depends on the presence of polymethylphenylsiloxane varnish and a linear polymer in the form of polyvinylpyrrolidone.

However, the presence of a significant amount of varnish gives the composition a specifically unpleasant odor that is stable in domestic conditions and worsens domestic comfort during use, and the resulting coating is unstable with respect to active ultraviolet radiation, which leads to a violation of its general tonality or to the formation of separate dull zones on it. The use of a significant amount of varnish in the polishing composition also leads to a violation of its homogeneity during storage, which affects the polishing ability of the composition.

The invention according to patent RU No. 2192442 is selected as the closest analogue of the claimed technical solution.

The basis of the invention is the creation of an effective polishing ability of the composition that implements the technical result of increasing the gloss of the coating and resistance to ultraviolet radiation.

The basis of the invention is the task of minimizing the consumption of components to obtain an effective polishing and protective composition and the task of creating a polishing composition, effective in homogeneity, elasticity and attractiveness of its commodity form during storage.

The stated technical problem is achieved by the fact that the polishing composition for caring for coatings containing a waxy compound, silicone oil, hydrocarbon solvent, fatty acid, linear polymers with a molecular weight of not more than 160-10 ³ and water, according to the invention additionally contains alcohol, 8- A 10% aqueous suspension of detonation synthesis nanodiamonds with a particle size of 4-6 nm, di- or triethanolamine, while a mixture of waxes with a melting point of 7 respectively is used as a waxy compound 2-85 ° C and 83-91 ° C with a ratio of (0.35-0.5) :( 0.5-0.65) parts by weight, with the following ratio of components in the composition, wt.%:

wax mixture 4,5-6,5 linear polymers with molecular weighing no more than 160 · 10 ³ 0.1-0.35 coolly solvent 8-12 alcohol 1-3 fatty acid 3-5 di- or triethanolamine 1-3 silicone oil 2-3 aqueous suspension of nanodiamonds 0.2-1.2 water rest

According to the invention, a mixture of silicon-organic oligomers in the form of Dimethicone 350 cSt and Dimethicone 1000 cSt or a mixture of polymethylsiloxane liquids PMS-300 and PMS-1000, respectively, with a ratio of (0.4-0.5): (0.5- 0.6) weight. hours

According to the invention, white spirit is used as the hydrocarbon solvent, and isopropanol is used as the alcohol.

According to the invention, polyvinyl acetate or polyvinylpyrrolidone with a molecular weight of (70-160) · 10 ^{3 is} used as linear polymers.

According to the invention, oleic acid is used as the fatty acid.

According to the invention, the composition further comprises a biocide and perfume in an amount of 0.08-0.12 wt.% And 0.04-0.06 wt.%, Respectively.

According to the invention, the commercial preparation Caton LXE is used as a biocide.

When implementing the invention due to the presence in the polishing composition of the named composition of the components, taking into account a given wt.% Ratio of them:

provides the creation of a viscous-plastic properties homogeneous structure of an aqueous suspension of a polishing composition, which, when polished, has high penetrating ability into the micropores of the treated surface, regardless of the temperature regime and ensures the formation of a strong preservative-protective coating both in terms of moisture, acid resistance and thermal traditional exposure to ultraviolet radiation. This is explained by the presence in the composition of the composition of the emulsifying component in the form of a linear polymer, the use of silicone oils with different kinematic viscosities, activating the adhesive interaction of the components of the composition with the surface of amino-containing components in the form of di- or triethanolamine, and the presence of detonation synthesis nanodiamonds in the composition, the microcrystals of which are included in a mixture of waxes, forming a protective film of a three-dimensional three-dimensional structure on the treated surface;

the use of these components at their wt.% content in the composition of the polishing composition improves the viscosity-plastic properties of the composition in a wide temperature range while maintaining the commodity form of the composition during storage.

In the analysis of the prior art, no polishing compositions for caring for paint coatings with a combination of features corresponding to the claimed technical solution and implementing the above technical result were revealed.

However, from the analysis of the prior art established the fame of technological compositions that use nanodiamonds, which are chemically purified product of the detonation synthesis of explosives.

Depending on the manufacturing technology and type of consumption, nanodiamonds are available as dry powder or in the form of aqueous suspensions. These types of products are used in various industries, including the production of lubricating compositions, when creating highly effective grinding and polishing compounds intended for grinding, finishing and polishing surfaces of metal parts, in the manufacture of polymer hardening coatings.

However, from the prior art, no information was found on the use of aqueous suspensions of detonation synthesis nanodiamonds in polishing compositions intended for the treatment of paints and coatings containing waxes, silicone oils, alcohols, hydrocarbon solvents and other components.

Thus, from the prior art it follows that the claimed composition of the polishing composition for the care of paints meets the criteria of the invention - novelty, inventive step.

The inventive polishing composition can be industrially implemented as a ready-to-use commercial product intended for the care of coatings applied to metal surfaces, in particular, automobile bodies.

The essence of the invention is illustrated by recommendations regarding the choice of raw materials, examples of specific compositions, recommendations for their practical application and test results.

Table 1 shows the compositions of examples 1 ... 5; table 2 shows the technological indicators for the compositions in accordance with examples 1 ... 5.

For the manufacture of polishing compositions (examples 1-5) using ready-to-use raw materials:

Montan wax, which is one of the components of bentonite clay and having T _PL = 72-83 ° C; carnauba wax having a melting point of 83-91 ° C, a density of 0.99-0.999 g / cm ³ ; silicone oils with a viscosity of 300 to 1000 cSt, belonging to the class of organosilicon oligomers. Commercial products are preferably used: Dimethicone 350 cSt and Dimethicon 1000 cSt or polymethylsiloxane liquids PMS-300 and PMS-1000, respectively; alcohol, preferably isopropyl alcohol; hydrocarbon solvent, preferably white spirit; fatty acid, preferably oleic; an amino compound, preferably di or triethanolamine; fragrance, for example, according to TU-1816-121-77, a flavoring additive that eliminates unpleasant odors of the polishing composition and ensures the comfort of working with it;

amorphous linear polymers with a molecular weight of (70-160) · 10 ³ , preferably polyvinylpyrrolidone with a molecular weight of (80-160) · 10 ³ - TU 6-02-1858-81 or polyvinyl acetate with a molecular weight of not more than 160 · 10 ³ ;

biocide is a water-soluble antibacterial preservative widely used in the cosmetic industry and in household chemicals to improve the storage conditions of finished products, for example, the Caton commercial product, in particular Caton LXE, as the most preferable in terms of cost. Caton series antibacterial marketed drugs are sold by many companies, see, for example, the journal “Raw materials and packaging”, including No. 4 (43), 2004, p. 41; water, which is a dispersion medium for a polishing composition. Preferably, demineralized water is used according to GOST 6709-72 or STP 18-12-76 rev. 1.2.3;

8-10% aqueous suspension of detonation synthesis nanodiamonds with a particle size of 4-6 nm. The specified product manufactured under the trademark "UDD-SF", TU 05121441-275-95; has a mass fraction of total carbon and oxidizable carbon, calculated on the solid phase, respectively, not less than 85% and not more than 2.5% with a pycnometric density of 3.05-3.35 g / cm ³ and with a mass fraction of dry matter of at least 8%.

The above chemical products when used in the composition of a polishing composition is characterized by the following properties.

Wax is a highly elastic film-forming substance.

When the wax content is less than 4.5% or more than 6.5%, the rheological and technological properties of the polishing composition deteriorate. With a decrease in the amount of wax less than 4.5 wt.%, The strength and deformation characteristics of the composition decrease due to the deterioration of its ductility. With an increase in the amount of wax more than 6.5 wt.%, The process of polishing the composition worsens.

When implementing the invention, it is preferable to use a mixture of montan wax and carnauba wax with a ratio of (0.35-0.5) :( 0.5-0.65) (parts by weight), which helps to improve the resistance of the formed coating to atmospheric influences Wednesday.

A mixture of silicone oils in the form of organosilicon oligomers with kinematic viscosity from 300 to 1000 cSt is used to improve the elasticity of the composition, which increases its polishing ability, and to hydrophobize the treated paintwork surface in order to increase its moisture resistance.

When the content of the specified mixture of organosilicon oligomers is less than 2 wt.% Or more than 3 wt.%, The technological properties of the composition deteriorate. In this case, either the protective ability of the composition used decreases or the composition thickens, which worsens the polishing and reduces the gloss of the coating.

The used mixture of organosilicon oligomers with kinematic viscosity from 300 to 1000 cSt helps to maintain the visco-plastic properties of the composition in a wide temperature range (10-40 ° C), meets the technological requirements of polishing it on the treated paintwork surface.

The specified weight ratio between the aforementioned commercial products of organosilicon oligomers optimally corresponds to these requirements.

Isopropanol (isopropyl alcohol) used in the composition is an effective diluent for wax, and white spirit is a solvent for hydrocarbon contaminants on polished surfaces. The specified wt.% Alcohol and mineral spirits content is most effective according to fire safety requirements (higher flash point of mineral spirits) and according to the conditions of polishing and preservation of composition homogeneity during long-term storage.

For a given content of mineral spirits, the process of penetration of the composition into the micropores of the paint coating is optimized, the process of the solvent effect on the pollution of hydrocarbon origin on the protected surfaces is improved.

In the implementation of the invention can also be used isobutyl alcohol and a hydrocarbon solvent of the C ₁₀ -C ₁₄ paraffin fraction. These chemical products provide similar quality results to the claimed polishing composition.

Gasoline hydrocarbons, preferably kerosene, can also be used as a hydrocarbon solvent.

The use of amorphous linear polymers with a molecular weight of (70-160) · 10 ³ with a given wt.% Content in its composition provides an optimal emulsifying effect on the consistency of the polishing composition.

An increase in the molecular weight of these polymers (more than 160 · 10 ³ ) leads to an increase in the viscosity of the polishing composition and to a deterioration in its polishing on the surface to be treated.

A decrease in the molecular weight of the aforementioned polymers (less than 70 · 10 ³ ) leads to a decrease in the emulsifying effect of polymers on the composition, its elasticity and homogeneity during storage deteriorate.

Oleic fatty acid, di- or triethanolamine are additional emulsifiers (disaggregators) of the polishing composition and surface-active substances that activate the adhesion of the composition to polished coatings.

The specified wt.% Content in the composition of oleic acid, di- or triethanolamine is optimal according to the conditions of maintaining its homogeneity during storage and adhesion to the treated paintwork surfaces.

In the preparation of the polishing composition according to the invention, palmitic acid can also be used as a fatty acid.

A technological additive in the form of an 8-10% aqueous suspension of detonation synthesis nanodiamonds with a particle size of 4-6 nm is used as a component that improves the protective and strength properties of the coating formed on the paint surface by incorporating diamond nanoparticles into the structure of the main film-forming substance - wax - and the formation of this is the most stable in terms of physico-chemical parameters of the three-dimensional structure of the protective film.

The presence of detonation synthesis nanodiamonds in the composition of the polishing composition improves its homogenization process due to the interaction of nanodiamonds particles with a polymer material.

The improvement of the named properties of the composition of the polishing composition when using detonation synthesis nanodiamonds in it at a given wt.% Content was confirmed by experiments. A decrease in the wt% of the content of an aqueous suspension of nanodiamonds in the composition reduces its effectiveness, and an increase increases the cost of preparing the composition with a slight improvement in its effectiveness.

The nanodiamonds used for the preparation of the polishing composition with the physicochemical properties specified in accordance with the invention are most optimal for the preparation of aqueous suspensions of technological products, the composition of which includes polymeric materials. When choosing nanodiamonds with the properties set according to the invention, the recommendations developed according to TU 05121441-275-95 were used.

The claimed wt.% The content of the above trade preparations: perfumes, biocide in the polishing composition is optimal for the corresponding technological properties of the composition. In particular, a decrease in the composition by weight of a preparation such as Caton LXE reduces the shelf life of the composition, and an increase increases the cost of manufacturing the composition.

The manufacturing technology of the polishing compound is simple, affordable and environmentally friendly in one reactor with a stirrer. A prescription amount of components is loaded into the reactor, the suspension is heated until the components are dissolved and melted, homogenized and disaggregated until a homogeneous emulsion is obtained. During the operation of the reactor, it is sealed due to the high volatility of white spirit. The introduction of alcohol and biocide into the reactor is carried out after preliminary cooling of the emulsion with water. The appearance of the emulsion is from white to light yellow, the smell corresponds to the perfume used.

To confirm the effectiveness of the polishing, preserving and protective properties of the claimed composition for paint coatings were prepared compositions according to examples 1 ... 5 (table 1), respectively:

Examples 1 ... 2 are compositions of a polishing composition according to the invention;

Examples 3 ... 4 - control composition polishing composition;

Example 5 - composition of the composition according to patent No. 2192442

To obtain the composition of the polishing composition according to patent No. 2192442, known raw materials are used (see table 1).

The test results and quality indicators of polishing compositions according to examples 1-5 in table 1 are presented in table 2.

The tests were carried out on metal plates measuring 70 × 150 mm, coated with a primer and automotive enamel.

Tests on the adverse effects of environmental factors on paint coatings were evaluated: when using the artificial weather apparatus, each cycle of the apparatus operating mode is 6 hours; when using optical equipment to determine the equilibrium contact angle of wetting when dosed applying liquid (water, oil) on the surface of the tested samples;

when the test samples were irradiated with focused radiation (λ = 430 nm), the lamp power was 450 W, the irradiation time was 60 min. After irradiation, a change in the color of the film was monitored and resistance was assessed according to a five-point system, while the maximum staining corresponds to the minimum resistance (unirradiated polish films have no color (tonality change)).

The test results showed that the inventive polishing composition for caring for coatings in its physicochemical parameters exceeds the known polishing composition for a similar purpose.

Paint polish
table 2 The quality indicators of the compositions The inventive composition Control compounds Famous Composition Example 1 Example 2 Example 3 Example 4 Example 6 Resistance to temperature fluctuations (-40 ° С, + 60 ° С), the number of cycles until the brightness changes by 5% thirty 31 27 24 25 Water resistance, gloss reduction,% after finding coated plates in water for 5 days four four 8 9 6 Moisture resistance, change in the appearance of the coating during exposure for 7 days at 98% relative humidity + 35 ° C Does not change dullness dullness Wetting angle (water / oil): - less than and equal to 90 ° / 5 ° (surface wetted by liquid), water / oil; -more than 90 ° / 15 ° (non-wettable surface) 87/13 88/14 86/12 85/10 88/9 Weather resistance, reduction of gloss caused by atmospheric influences (15 days),% 5 5 8 10 8 Resistance to car wash process, wetting angle, ° (deg.) 87 88 82 80 84 The resistance of the homogeneous structure of the composition to storage, months 12 months (without delamination) Not rated stratification after 9 months. UV resistance score 5 2 one 3

Claims (7)

1. Polishing composition for the care of paints, containing a waxy compound, silicone oil, alcohol, hydrocarbon solvent, fatty acid, linear polymers with a molecular weight of not more than 160 · 10 ³ and water, characterized in that the composition additionally contains 8-10% a water suspension of detonation synthesis nanodiamonds with a particle size of 4-6 nm, di- or triethanolamine, while a mixture of waxes with a melting point of 72-85 ° С and 83-91 ° С, respectively, with a ratio of (0, 35-0.5) :( 0.5-0, 65) parts by weight, in the following ratio of components in the composition, wt.%: A mixture of waxes 4,5-6,5 Linear Molecular Polymers weighing no more than 160 · 10 ³ 0.1-0.35 Hydrocarbon solvent 8-10 Alcohol 1-3 Fatty acid 3-5 Di- or triethanolamine 1-3 Silicone oil 2-3 Aqueous suspension of nanodiamonds 0.2-1.2 Water Rest 2. The polishing composition according to claim 1, characterized in that the silicone oil is a mixture of organosilicon oligomers in the form of Dimethicone 350 cSt and Dimethicone 1000 cSt or a mixture of polymethylsiloxane liquids PMS-300 and PMS-1000, respectively, at a ratio of (0.4 -0.5) :( 0.5-0.6) parts by weight 3. The polishing composition according to claim 1, characterized in that white spirit is used as the hydrocarbon solvent, and isopropanol is used as the alcohol. 4. The polishing composition according to claim 1, characterized in that as linear polymers use polyvinyl acetate or polyvinylpyrrolidone with a molecular weight of (70-160) · 10 ³ . 5. The polishing composition according to claim 1, characterized in that oleic acid is used as the fatty acid. 6. The polishing composition according to claim 1, characterized in that the composition further comprises a biocide and perfume in the amount of 0.08-0.12 wt.% And 0.04-0.06 wt.%, Respectively. 7. The polishing composition according to claim 6, characterized in that Caton LXE is used as a biocide.