Paintwork RAW

The Izur-021 hardener (curing agent) is intended for lowering the temperature conditions in curing of ML-12 (GOST 9754 – 76) and ML-12k (TU RU 00204547.89 – 2000) enamels.

It is intended for painting metallic, wooden and other surfaces exposed to weather impacts and for painting indoors

The oxidized drying oil is a solution of oxidized vegetable oil in synthetic solvents modified with siccative. It penetrates excellently into the wood pores, highlights the article structure and is featured by high resistance to wear and good drying properties.

They are intended for painting the preliminary primed or primed and plugged metallic surfaces of products to be operated both outdoors and indoor. Main purpose: painting of automobiles.

It is intended for removing old paint-and-varnish coating based on acryl-alkyd, alkyd, oil-styrene, melamine, polyvinyl-acetal enamels, epoxy fillings and primers as well as complex coatings consisting of the above materials from the surfaces of ferrous metals.

It is intended for painting wooden and preliminarily primed metallic surfaces to be operated under atmospheric conditions as well as for painting articles to be operated indoors.

It is intended for protection of wooden surfaces (walls, windows, doors, fences, etc.) to be operated both under atmospheric conditions and indoors against rotting, blue rot, mould formation, atmospheric attack as well as for decorative finishing of surfaces of wooden structures and constructions. The PF-11 colorless wood-protecting compound can be applied for lightening the colored compounds as well as for preliminary impregnation (coating) of wooden surfaces with drying oil prior to painting them with alkyd or oil paints and enamels.

It is intended for painting of preliminary primed surfaces of steel, magnesium, aluminum and titanium alloys as well as copper and its alloys. The painting with enamel without priming is allowed.

To be used for smoothing the primed or non-primed metal and non-metal surfaces or as primers for epoxy materials, and for systems of coatings to be used under atmospheric conditions (for example, for road transport) and indoors. The EP-0010 filling is allowed to be used in shipbuilding industry and for ship repair. The EP-0020 filling is used additionally for smoothing special ceramic coatings and protecting them against moisture.

For smoothing and elimination of defects of primed metal or wooden surfaces and for system of coatings to be used under atmospheric conditions and indoors.

Appearance of the spackling layer after drying: the filling surface shall be smooth and free of scratches, bubbles, cracks and mechanical inclusions.

Elimination of small defects on primed metal and wooden surfaces and on primed surface coated with enamel.

The filling is applied before applying the coating consisting of nitrocellulose, nitroalkyd and nitroepoxy enamels to be used indoors or under atmospheric conditions.

It is intended for local smoothing and elimination of paint defects (marks, scratches, chips, small dents, etc.) on metal and wooden surfaces primed with alkyd and nitrocellulose primers as well as for elimination of defects in an identified layer.

It is also used for smoothing and elimination of defects of primed metal and wooden surfaces. The nitrofilling shall be applied by means of palette-knife, brush or, after dilution with solvent 646, by means of a spray gun. The thickness of the dried layer shall not exceed 120 μm.

The siccatives are solutions of metal salts of fat oxides in organic solvents serving to quicken the desiccation of varnishes and paint

The pigmental aluminum powder is produced as per GOST 5494 in two grades: PAP-1 and PAP-2. It is used as multipurpose aluminum pigments in the composition of light-reflecting, corrosion-protective, heat-resistant, decorative and other paints, enamels, varnishes and fillings; for production of cellular concretes, etc.

The black iron oxide pigment is used in manufacture of primers and enamels, especially in such cases, where high mechanical strength of the film is required. The pigment can be also used for color matching of paintwork materials instead of soot.

The black iron oxide pigment is obtained from interaction of the ferrous sulfate and soda solution with subsequent oxidization of the sediment by oxygen.

It is used as pigment and filler in production of paintwork materials, building materials, rubbers and leather.

It is also used in ferrous metallurgy, electric engineering and production of corrosion-inhibiting coatings.

Due to their excellent characteristics (light and heat resistance, high coverage power), these dyes have become widely used in various branches:

• in the construction: for painting concrete, cement, continuous-pour floors, asbestos-cement, paving slabs and silica bricks,
• in the varnish-and-paint industry for producing paints, enamels and primers. They are excellently compatible with actually all kinds of film formers,
• in other branches of industry, such as ceramic, paper, leather and rubber one.

It is used in the paint-and-varnish (for coatings with enhances weather resistance), ceramic, paper, leather, rubber and building industries (including the painting of cement, concretes, continuous-pour floors, asbestos-cement, paving slabs and silica bricks).

Due to such properties as high coloring power, heat- and light- resistance, low toxicity, phthalocyanine pigments may be used in various fields:

• in the varnish-and-paint industry, for producing the domestic- and industrial-purpose paintwork materials based on alkyd, acrylic and epoxy resins, nitrocellulose, polyurethanes and other film formers including the water-dispersion ones,
• for producing super concentrates intended for painting very thin films and polypropylene fibers,
• in the composition of inks for flexographic, gravure and screen printing with hot and cold hardening,
• in textile industry,
• for painting a wide range of plastics in the mass of: high- and low-pressure polyethylene, polypropylene, polystyrene, acrylonitrile butadiene styrene, polyamide, polycarbonate, polyvinylchloride, cellulose acetate and nitrate as well as plastics based on phenol-formaldehyde, epoxy and other resins.

OKhP-1 chromium oxide is used:

1. In the varnish-and-paint industry for producing enamels and paints;

2. As pigment in production of building materials,

3. As abrasive materials in machine building.

Production of paintwork materials, adhesives, glues, mastics, sealants, ceramics, rubber and plastics

Paints, varnishes and finishing materials, plastics, corrosion-inhibiting compounds and wear-resistant coatings.

Paints, varnishes and finishing materials, plastics, corrosion-inhibiting compounds and wear-resistant coatings.

It is used in production of water- and solvent-borne paints and enamels of general construction and special purpose, primers and fillers including those to be used when manufacturing the weather- and corrosion-resistant coatings and, as determined by specificity of the raw materials to be used as well as in production of paintwork materials with required increased wear resistance, for example, road paints and marking compounds.

Main spheres of application: paints, varnishes and critical building materials, plastics, industrial rubber articles, porcelain and faience ceramics, metallurgical and electrode production.

In paintwork materials, microwollastonite additionally: contribute to improvement of wear and weather resistance of surfaces, saving of corrosion-inhibiting pigments at the cost of synergistic effects, has pronounced structuring action in production and application of paintwork materials determined by matting properties, impart the improved brightness to paints, enhances considerably the adhesion characteristics of paintwork materials, has superior dispersability in organic and water media, excellent color performance (minimum yellowness, high whiteness) as well as contribute to creation of efficient рН barrier and deflocculation of pigments.

In paint-and-varnish, microbaryte can be used in all kinds of paintwork materials without limitation to exert positive influence on the properties of filled articles and reduce the surface defects of coatings. While having low oil absorption and high refraction index in comparison with other fillers, microbaryte makes it possible not only save the binder and pigments in paintwork materials, but also produce the paints with high non-volatile content and increase the tonnage of finished products (the density of paint or varnish with microbaryte increases that of a paint or varnish made with other fillers). While having low solubility, microbaryte is used successfully in both acid water-soluble and alkali paint or varnish compositions. Its use makes it possible to create both economic formulations allowing the consumption of white and colored pigments to be reduced, and formulations of paintwork materials with specified properties: increased gloss of surfaces, high packaging density with good flow properties and sedimentation stability, enhances dispersability and increased adhesion to substrate, low moisture and steam permeability as well as improved resistance to corrosion media, weather impacts and high temperatures.

Natural technical-grade dispersed chalk of MTD-2 mark is used as a filler in paint-and-varnish, polymer and glass industry, and to produce building and finishing materials.

Natural technical-grade dispersed chalk of MTD-2 mark is intended for use as a filer in paint-and-varnish and polymer industry as well as to produce building and finishing materials to be used in the construction. It is commonly used for whitewashing as an inexpensive and environmentally friendly natural finishing material. Natural technical-grade dispersed chalk is produced by fragmentation of the white rock consisting of calcium carbonate (calcite).

Ferrocyanide blue is used in paint-and-varnish industry to produce paints and enamels of various types in mixture with hiding pigment (more commonly, with pigmental TiO₂) and fillers.

It is commonly used in printing industry in the form of printing colors of various kinds.

The most common methods of production of lead chrome pigments are the followings: sedimentation from the basic lead acetous and nitric compounds, continuous method of producing the chrome pigments from Рb metal as well as from yellow lead monoxide and chromic anhydride.

Although lead sulphate crystallizes in the same two systems as lead chromate does, its stable form is the rhombic modification. Therefore, introduction of lead sulphate into the composition of the chrome pigment increases the stability of rhombic modification of lead chromate in isomorphous blend.

In addition, the following additives are recommended to introduce when synthesizing the chrome pigments to stabilize the rhombic modification of lead chromates and sulphochromates: lead phthalate, aluminum hydroxide, titanium hydroxide and some surfactants.