SU497325A1 - Non-fouling paint - Google Patents

Description

The invention relates to the field of paint and varnish coatings, to the particular “non-peeling paint, suitable for protection against fouling of ship hulls, ship devices and structures

The most important properties of antifouling paints are the ability to prevent fouling by all kinds of marine organisms and the duration of effective action. The next property is determined by both the leaching rate of toxins and their bioactivity, and the quality of the non-fouling coating itself — strength, hardness, adhesion, and other indicators.

The "growing paint based on a synthetic binder, a filler, a pigment, a solvent, and an active component, polytributyl tin methacrylate, is known. However, this paint has low physicomechanical characteristics of coatings based on it, which limits its field of application.

The aim of the invention is the creation of antifouling paint with enhanced physical and mechanical characteristics: hardness, strength, adhesion, smoothness, high decorative properties.

These properties of “growing paint acquire due to the introduction in its composition of the first synthesized organotin

copolymers of trialkyl- or triphenyltin-metarylates, as well as maleates with m-aleimides of the general formula

sn sn

.

where R is alkyl, phenyl or alkylphenyl. The amount of maleimide units in the composition of the copolymer may be 75-35 wt. h

The copolymers are synthesized by reacting the calculated amounts of 2,4-dimethylphenyl maleimide or Nn-tolyl maleimide or another similar compound with tribe / ul methacrylate tin or with 2-ethylhexyl maleate tributyl tin, or with butyl male tri tributol in the presence of an initiator in the hub of the butyl trimethyl tributyl tin, or with butyl male tri tributyl tin in the initiator.

Copolymers synthesized, for example, tributyl tin methacrylate with dibutyl maleimide, can be used in combination with various binders (perchlorovinyl resin, epoxy resins, rosin, rubbers) or without them. Dunn "Raska has the following composition

weight. including:

Synthetic Binder5-10

Rosin2-15

Organotin

copolymer12-18 Filling3-5

Pigment20-25

Solvents30-55

Example 1.

Perchlorvinyl resin7

Rosin7

Talc 5

Titanium White 20 Tributyl Methyl Acrylate Copolymer With

dimethylmaleimide12

Solvents49

R m ime 2. Partially saponified

Chlorophenyl copolymer

with vinyl acetate6

Not three flaxes and rubber2

Rosin12

Talc3

Titanium White22

A copolymer of triethyl tin methacrylate with dimethylmaleimide 17

Solvents38

Example 3. Partially saponified

vinyl chloride copolymer

with vinyl acetate5

Rosin10

Talc5

Iron Minium20

Tributyl tin methacrylate copolymer with

with dimethylmaleimide 18

Solvents42

Example 4.

Alkyd Epoxy Resin

(E-30) 1

Rubber Chlorsulfopolyethylene (Hypalon) 9

Rosin15

Talc3

Titanium White25

A copolymer of triethyltin methacrylate with dimethyl 17 30 phenyl maleimide

Solvents

p and iM 5.

one

Epoxy resin (E-41)

Neoprene rubber

7 Nairit NT

2

Canola

3

Talc

20

Zinc white

Copolymer of trc-phenyl tin-methacrylate with dimethyl12 55 maleimide

Solvents

The paint is prepared according to the technology used in the production of conventional non-fouling

paints, by dispersing the ani components in a ball mill to the desired milling degree.

Paint is applied with a brush or roller. This forms a uniform, solid, durable, gloss coating with a thickness of 40-50 µl per layer.

Drying time 2-4 hours at normal temperature. Comparative tests have shown that

the physicomechanical indicators, adhesion and decorative properties of the proposed paints are significantly superior to those on the known organotin polymers: polytributyl tin methacrylate, tributyl tin methacrylate copolymer with vinyl acetate and are more effective against fouling than the paints on monomeric organotin toxins (for example, TBTO). The service life of the proposed paint at least two years.

Due to the high physicomechanical characteristics of the paints described, it is possible to expand the field of application of antifouling paints and apply them to high-speed vessels.

The table lists the comparative characteristics of the antifouling paint based on a copolymer of tributyl tin methacrylate with dimethyl maleimide without the addition of binders (I) proposed by the non-colored paint.

(Ii) as well as paint, from which the organotin copolymer (1P) is excluded.

Claims (1)

Invention Formula Non-fouling paint containing synthetic binder, rosin, organotin copolymer, pigment, filler and solvents, characterized in that, in order to improve the physicomechanical properties of the coating, it contains, as an organo-organic copolymer, a trialkyl (trnphenyl) tin methacrylate monomer with a polyimide or a polymere trialkyl (triphenyl) - tin-maleate with maleimide in the following ratio of components, weight. b .: Synthetic binder 5-10 Rosin2-15 Organotin copolymer12-18 Filler3-5 Pigment20-25 Solvents30--55