RU2068444C1 - Protective composition - Google Patents

Abstract

FIELD: protective materials. SUBSTANCE: composition has, %: zinc powder 4-6; 2-phenylbenzylimidazole 1-2 and product containing hydrocarbon solvent, oxidized petrolatum, alkyd-styrene lacquer, phenyl-alpha-naphthylamine and ceresine - the rest. EFFECT: enhanced effectiveness of composition. 2 tbl

Description

 The invention relates to protective preservation materials for anticorrosive protection of metal products from environmental influences.

 Known film-forming inhibited oil compositions, such as NG-216A, NG-216B, NG-222A, NG-222B, etc. [1,2,3,4] widely used for temporary anticorrosive protection of metal products from atmospheric factors. The disadvantage of the compositions NG-216A, NG-216B is the low aftereffect, and the composition of the NG-222A low universality.

The closest composition to the invention is a protective composition based on a product that is a film-forming inhibited oil composition (PINS) of NG-222B, including a hydrocarbon solvent, alkyd-styrene varnish, oxidized petrolatum, phenylalphanaphthylamine, ceresin, etc. [nine]
The disadvantage of this composition is that in the case of a local violation of the integrity of the coating film (scratch, crack, etc.) and penetration from outside the aggressive components of the medium to the protected surface, a local corrosion center is initiated at this point with the prospect of a protective coating spreading under the film.

 The invention is aimed at increasing the protective ability of PINS while maintaining satisfactory effectiveness of the anticorrosive protection of the object.

 The solution of this problem is achieved by the fact that the powder composition contains powdered zinc powder PC-2 [7] 4-6 by weight and powder of 2-phenylbenzimidazole (PBI) 1-2 by weight and PINS NG-222B [6.9] the rest .

 A significant difference from the prototype is the introduction of zinc powder into the protective composition, which allows the protective effect to be realized during electrochemical protection in the event of a local corrosion focus and PBI powder, which allows the binding of aggressive environmental components, contributing to protection against crevice corrosion and increasing the stability of the coating film .

 A laboratory experiment to test the protective ability of its various options has allowed to clarify the optimal composition of the protective composition.

 Laboratory tests in comparison with the composition of NG-222B (composition N 1) were carried out in a salt spray chamber in accordance with [5] according to method 3. For the tests, the following modifications were prepared, are given in table. 1.

 Each protective composition was applied on 4 samples of steel grade st. 10 according to GOST 1050-88 measuring 50 x 50 x 3 mm with a pre-prepared surface according to GOST 8832-76, with the goal of determining the protective ability of the coating film for 2000 hours. The area of corrosion damage to the plates was determined from the test results. The results are presented in table. 2.

As can be seen from the results, the optimal ratio of the components of the claimed protective composition is as follows: wt. (composition N 6):
Zinc powder PTs-2 4-6
2-Phenylbenzimidazole 1-2
Composition NG-222B Else
The thickness of the protective layer is 0.15 mm.

 The composition is prepared as follows. Powders of components in the indicated proportions are added to the composition of NG-222B with constant stirring. The composition is applied in various ways: with a brush, dipping, spray, etc.

Claims (1)

 A protective composition based on a product including a hydrocarbon solvent, oxidized petrolatum, alkyd-styrene varnish, phenylalphanaphthylamine and ceresin, characterized in that the composition additionally contains zinc powder and 2-phenylbenzylimidazole in the following ratio, wt. Zinc powder 4 6
2-phenylbenzylimidazole 1 2
Product including hydrocarbon solvent, oxidized petrolatum, styrene alkyd varnish, phenylalphanaphthylamine and ceresin

Images