SU889749A1 - Shine-forming additive - Google Patents

Description

(54) SHINE CREATIVE ADDITIVE

one

The invention relates to the galvanic deposition of metallic coatings, in particular zinc from weakly acid electrolytes, and can be used in mechanical engineering and instrument-making.

Zinc electrolyte containing zinc salt, ammonium chloride, polyethylene glycol and aromatic ketone is known tl

However, bright zinc coatings are obtained from this electrolyte in a small range of current density (o, 1-10 A / dm) with stirring.

The aim of the invention is to expand the range of operating current densities for obtaining shiny coatings.

This goal is achieved by using 2-methyl-6j 7-methylenedioxy-8-methoxy-3, 4-dihydroisoquinolini hydrochloride (cotarnine hydrochloride) as a brightener in weak acid zinc electrolytes as the brightener.

This substance is a breakdown product of the narcotine alkaloid obtained by the action of dilute nitric acid. It is used as a pharmaceutical preparation G23.

Structural formula of cotarnine:

+ er

N-CHj-HzO

5s

 ociHj

The electrolytes, in addition to cotarnine, must contain high molecular weight stabilizing compounds and wetting agents. The proposed composition of electrolytes is presented in table 1.

Table 2 presents the mode of electrolysis of solutions with the proposed brilliant-forming additive.

jg The dispersing ability of electrolytes is measured in a slit cell. The reflectivity of coatings is evaluated in comparison with the reflectivity of a silver mirror.

The electrolytes of these compositions are highly stable in operation. So, after passing the current 75-80 AH / l, a correction is needed for the fermenting agent, which is produced by introducing it into electric batteries in the amount of 0.06 g for every 10 A / h of missing electricity.

The use of hydrochloride hydrochloride as a brightening agent makes it possible to drastically increase the current density range for the production of high gloss zinc coatings. So, depending on the concentration of inorganic and organic components (cr.) 120 th 200 lb-115

102

The electrolyte Dk interval for obtaining brilliant precipitation is in the range of 1-60 A / dm. Such a wide range of current densities makes it possible to use electrolytes with the proposed bright-forming additive both for coating parts of various configurations, and for deposition of zinc on sheet steel, wire, pipe, when galvanizing which requires the use of high dc. The proposed gloss former provides high gloss coatings from electrolytes with a high scattering power (40-A2%). Table 1

100

100

60,250

200

180

 25

25

20

25 5.0

5.0

0.5

58897494,

Claims (2)

Invention Formula Sources of Information The use of 2-methyl-6,7-methylenedi- 1. USSR author's certificate hydroxy-8-methoxy-3,4-dihydroisoquinoli- №330640, cl. C 25J3 3/22, 1970. neither hydrochloride (cotarnine hydro s chloride) as brilliantly- 2. Knun nts I.A. et al. Briefly, predatory supplements in weakly acid electrolytic encyclopedias. M., Sovetstakh zinc-coated. Encyclopedia, 1963, p. 738. taken into account in the examination