RU1609123C - Protective lubricant - Google Patents

Abstract

FIELD: lubricants. SUBSTANCE: protective lubricant has the following qualitative and quantitative composition, mas. sulfate of alkali-earth metal or product based on nitrated oil 6-8; bitumen 17-22; solid oil hydrocarbons 8-10; alkyd 2-5; silica gel 1-2; the balance, organic solvent (gasoline). Protective lubricant impregnating capacity is increased from 2 to 17-18 mm, spreadability is increased from 10 and 15 to 35 and 18 mm. EFFECT: increased protective, adhesive and impregnation properties and spreadability. 2 tbl

Description

 The invention relates to petrochemistry, in particular to protective lubricants intended for corrosion protection of metal products with a clean or corroded surface, followed by applying paint and varnish materials to them, in particular, during repair work of railway rolling stock.

 The aim of the invention is to increase the protective, adhesive, impregnating properties and spreadability in the protection of metal products with a clean or partially corroded surface.

 Calcium alkylbenzenesulfonate is used to prepare a protective lubricant, AKOR-1 product (GOST 15171-78) or K-17u conservation oil (TU 38.401683-88) can be used as a product based on nitrated oil, and oil grade G bitumen (GOST) 21822-76), as petroleum solid hydrocarbons, petrolatum grade PK, PS, PSS (OST 38-01117-76), silica gel, alkyd resin grade 188 (TU 6-10-126677) and as an organic solvent gasoline (GOST 3134- 78) or nefras (TU 38.1011026-85).

 Alkyd resin in the proposed composition is used as a component that improves the impregnating properties. With the proposed ratios of the corrosion inhibitor and alkyd resin, a synergistic force of the impregnating properties of the corrosion products is observed.

 The joint presence in the proposed compositions of silica gel and alkyd resin allows for both high impregnation properties and adhesion of the lubricant to the paintwork.

Protective lubricant is prepared in a mixing reactor according to the following technology. In a reactor equipped with a stirrer was charged with bitumen and naphtha solvent, the temperature was raised to ⁸⁰ ° C and stirred at this temperature for 1 hour. Then added calcium alkylbenzenesulfonate or a product based on the nitrated oil, petrolatum, alkyd resin and stirred for another 1 h at 80 ^C. Then, while stirring, in portions silica gel and product circulation is carried out through the homogenizer for 0.5-1 h. The final product was cooled to 50-60 ^{° C} and poured in a sealed container.

 In this way, samples of the protective material were prepared, are given in table 1, the properties of which are given in table 2.

 The proposed composition can be applied by dipping, brush, pneumatic or airless spray.

 As a prototype they test a sample of the following composition, wt.

Calcium Alkylbenzenesulfonate 2.0 Bitumen 43.0
Calcium salt of higher fatty acids 0.1
2,6-Di-tert-butyl-4-dimethyl-aminomethylphenol 3.0 Oxidized Petrolatum 4.0
Butyl rubber with a mol.m. 40000-50000 4.0 Kaolin 5.0 Silica gel 3.0 Gasoline solvent 35.9
The prepared samples determine the capacitive-ohmic characteristics, the spreadability on a clean and rusty metal surface, the adhesion of the paintwork to these samples and the protective properties.

 The properties of the test samples of the proposed protective lubricant are evaluated by the following methods.

 Capacitance-ohmic characteristics are estimated by the value of the capacitance and resistance of the film of the protective composition at an alternating current frequency f 1000 Hz, as well as by the change in the value of capacitance and resistance depending on the frequency of the alternating current on the P-568 bridge.

 Spreadability is determined by the diameter of the spot formed on a metal surface when pipetted with 0.2 ml of the test product after 30 minutes

The impregnation ability is determined by the depth of impregnation of 3 g of iron oxide powder, rammed in a cylinder to 2.5 cm ³ , 1.5 ml of the test product after 2 hours

 Protective properties are evaluated in a thermal moisture chamber and a chamber of sulfur dioxide according to GOST 9.054-75 (methods 1,2).

 Adhesion is determined by the force required to peel the fiberglass, glued with a paint and varnish material to a layer of a protective lubricating composition deposited on aluminum foil (GOST 15140-78).

 As can be seen from table 2, the proposed composition is characterized by higher functional properties compared with the prototype. Impregnation ability increases from 2 to 17-18 mm, spreadability from 10 and 15 mm to 35 and 18 mm.

 The proposed protective lubricant is intended to protect against corrosion of metal products with a clean or partially corroded surface.

 As a result of its use, it is possible to exclude the stage of re-preservation of the product before applying the paintwork. This will improve the safety of metal products and use a protective lubricant as a primer under the paintwork.

Claims (1)

 PROTECTIVE LUBRICANT MATERIAL containing organic solvent, alkaline earth metal sulfonate or a product based on nitrated oil, bitumen and silica gel, characterized in that, in order to increase the protective, adhesive, impregnating properties and surface spreadability, it additionally contains solid petroleum hydrocarbons and alkyd resin in the following ratio of components, wt. Alkaline earth metal sulfonate or nitrated oil product 6 8
Bitumen 17 22
Solid petroleum hydrocarbons 8 10
Alkyd resin 2 5
Silica gel 1 2
Organic solvent Else

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