RU2114142C1 - Composition for applying of antifouling coating - Google Patents

Abstract

FIELD: thermoplastic dye for protection of ship body and other items against fouling. SUBSTANCE: proposed composition comprises biocide (I) together with compound being chosen of AsS, As₂S₂,As₄S₄,As₂S₅,As₄S₃ or mixture thereof (II) at their mass ratio 20:1-1:20. Arsenic sulfides being prepared by sulfidizing of arsenic waste of processing of polymetallic ores or arsenic trisulfide are used as biocide. EFFECT: increased melting point of composition.

Description

 The invention relates to compositions of thermoplastic antifouling coatings, used, for example, to protect the hulls of ships and other objects from fouling by attached aquatic organisms.

 Known compositions of thermoplastic paints based on paraffin and rosin, used to protect ships from fouling [1].

 Known composition in which as a biocide use nitrous oxide and copper oxide in conjunction with the "Parisian green" [2].

 However, all of the above formulations are characterized by a short time of their active action. They protect the surface from fouling for no more than 3 to 4 months.

Known composition [3] for applying a thermoplastic coating, containing, wt.%:
Rosin - 50 - 55
Paraffin - 10 - 15
Copper oxide - 25 - 30
Talc - 5 - 10
The composition has a fairly long duration, but its significant disadvantage is the low softening temperature of the paint - 45 - 55 ^o C, which leads to melting of the paint under direct sunlight. In addition, the paint has a dark color, which does not allow to purposefully vary the color gamut of coatings.

 When creating the invention, the task was to increase the melting temperature of the composition for applying an anti-fouling coating, as well as obtaining an unpainted composition that allows you to change the color of the coatings.

This is achieved by the fact that, as a biocide, it contains arsenic sulfides obtained by sulfidizing arsenic waste products from the processing of polymetallic ores or trisulfurous arsenic (I) and additionally a compound selected from the series AsA, As ₂ S ₂ , As ₄ S ₄ , As ₂ S ₅ , As ₄ S ₃ or their mixture (II) in the mass ratio (I): (II) = 20: 1 - 1:20 with the following content of other components, wt.%:
Rosin - 40 - 60
Paraffin - 5 - 15
Biocide - 25 - 55
To obtain an anti-fouling composition, the necessary components are weighed and thoroughly mixed. The mixture is heated to its melting point and then applied to the surface of the protected material, previously cleaned and prepared in a known manner.

The resulting composition has a T _PL = 59 - 69 ^o C and has a light yellow color, which can be varied by adding pigments, such as chromium oxide to obtain a green color.

Arsenic sulfides proposed as a biocide are formed during the sulfidation of waste containing arsenic, which is obtained by processing polymetallic ores. The waste contains arsenic in the form of a mixture of oxides of variable composition. The waste is toxic, highly soluble in water and hazardous in an environmental sense. For their storage, the operation is carried out sulfidizing waste either hydrogen sulfide or metal sulfides. The result is a mixture of arsenic sulfides, which contains, wt.%: As ₂ S ₃ 20 - 90; As ₂ S ₂ 5 - 20; As ₄ S ₃ 5 - 30, As ₂ S ₅ 5 - 20. The mixture is a loose, finely dispersed, uniform powder that does not require further heat and mechanical processing.

The inventive mixture of arsenic sulfides can be composed of individual phases found in nature in the form of minerals - auripigment As ₂ S ₃ , realgar As ₄ S ₄ , dimorphite As ₄ S ₃ , pentasulfide As ₂ S ₅ .

 Sulfides can also be obtained in the usual preparative way, both by direct interaction of arsenic with sulfur upon heating, or by exchange interaction in solutions. (Syntheses of inorganic compounds. Edited by W. Jolly. M.: Mir, 1970; Rtskhiladze V.G. Arsenic. M .: 1969 (.

 The biocide concentration is determined empirically. When the biocide concentration is below 25%, the fouling resistance decreases, and when the biocide concentration is more than 55%, the physicochemical properties of the coating deteriorate: ductility, uniformity, adhesion, etc.

 Below are examples of the preparation of compositions for antifouling coatings, their melting points and antifouling properties.

 The softening temperature of the composition was determined according to GOST 11955-82.

 To determine the resistance of the coating to fouling by marine organisms, marine bench tests were conducted in the coastal part of the Sea of Japan. To do this, the inventive composition in a molten form is applied with a brush to a test plate of plixiglase or steel, primed or pre-painted with an anticorrosive composition. The size of the plates is 150 • 100 mm. The plates are coated with the test composition on both sides and at the ends.

 The samples are then immersed for testing in the sea at the beginning of the fouling season (May) to a depth of 0.5 - 2.5 m. The sea depth at the test point is 6 - 7 m. Inspection and photographing of the samples was carried out every 7 to 10 days, removing frames with samples to the surface. Visually by the method of expert evaluations determine the part of the surface of the sample occupied by growth.

Example 1. 6.0 g of As ₂ S ₃ (I) and 3.0 g of As ₄ S ₃ (II) are weighed (I: II ratio = 2: 1, 30%, biocide), 18 g (60%) are added rosin, 3 g (10%) of paraffin. The components of the composition are thoroughly mixed, frayed, heated to melting with stirring and kept at 100 - 120 ^o C for 20 minutes A light yellow composition is obtained, which is then applied in molten form to a steel plate.

T _PL = 59 - 62 ^o C.

 The plate is immersed in the sea for testing as described above.

 Test results.

 Exposure 130 days - no fouling.

 Exposure 392 days - slight fouling, edge effect.

Example 2. The composition for coating is similar to that described in example 1, but As ₂ S ₃ - 4.5 g (I) and As ₄ S ₄ (II) - 4.5 g (1: 1 ratio) are used as a biocide.

T _PL = 55 - 58 ^o C.

 Test results.

 Exposure 130 days - no fouling.

 Exposure 392 days - slight fouling, edge effect.

Example 3. The composition for coating is similar to that described in example 1, but As ₂ S ₃ - 8.1 g (I) and As ₄ S ₃ - 0.9 g (II) are used as a biocide (9: 1 ratio).

T _PL = 59 - 63 ^o C.

 Test results.

Exposure 130 days - no fouling
Exposure is 392 days - fouling is negligible, a regional effect is observed.

Example 4. 14.85 g of As ₂ S ₃ (I) and 0.825 g of As ₄ S ₃ + 0.825 g of As ₂ S ₂ (II) are weighed (9: 1 ratio, 55% biocide), 12 g (40%) are added rosin, 1.5 g (5%) of paraffin. The components of the composition are thoroughly mixed, fray, heated to melting with stirring and incubated for 20 minutes at 100 - 120 ^o C. the resulting composition is applied in molten form to a steel plate.

T _PL = 59 - 63 ^o C.

 The plate is immersed in the sea for testing as described above.

 Test results.

 Exposure 130 days - no fouling.

 Exposure 392 days - slight fouling, edge effect.

Example 5. Weigh 10.8 g of As ₂ S ₃ and 1.35 g of As ₄ S ₃ + 1.35 g of As ₂ S ₅ (4: 1 ratio, 45% biocide), add 12 g (40%) of rosin, 1.5 g (5%) of paraffin. The components of the composition are thoroughly mixed, fray, heated to melting with stirring and incubated for 20 minutes at 100 - 120 ^o C. the resulting composition is applied in molten form to a steel plate.

T _PL = 67 - 69 ^o C.

 The plate is immersed in the sea for testing as described above.

 Test results.

 Exposure 130 days - no fouling.

 Exposure 392 days - slight fouling, edge effect.

Example 6. The coating composition contains: rosin - 12 g (40%), paraffin 3 g (10%) and biocide 15 g (50%). As a biocide, a waste from the production of the Novosibirsk Tin Plant is used, containing 70% As ₂ S ₃ (I), 15% As ₄ S ₃ , 10% As ₂ S ₂ , 5% As ₂ S ₅ (ratio I: II = 2.3: one). The components of the composition are thoroughly mixed, frayed, heated to melting with stirring and kept at 100 - 120 ^o C for 20 minutes The resulting light yellow composition is applied in molten form to a steel plate.

T _PL = 60 - 68 ^o C.

 The plate is immersed in the sea for testing as described above.

 Test results.

 Exposure 130 days - no fouling.

 Exposure 392 days - slight fouling, edge effect.

Example 7. The composition for coating contains: rosin - 15 g (50%), paraffin 4.5 g (15%) and biocide 10.5 g (35%). As a biocide, a mixture of arsenic sulfides obtained by removing arsenic from polymetallic ores of the Amurzoloto enterprise is used. The mixture contains 90% As ₂ S ₃ (I), 5% As ₄ S ₃ + 5% As ₂ S ₂ (ratio I: II = 9: 1). The components of the composition are thoroughly mixed, frayed, heated to melting with stirring and kept at 100 - 120 ^o C for 20 minutes The resulting composition is applied in molten form to a steel plate.

T _PL = 59 - 63 ^o C.

 The plate is immersed in the sea for testing as described above.

 Test results.

 Exposure 130 days - no fouling.

 Exposition 392 days - no fouling.

Example 8. The composition for coating contains: rosin - 16.5 g (55%), paraffin 1.5 g (5%) and biocide 12 g (40%). A mixture of arsenic sulfides obtained by removing arsenic from the polymetallic ore of the Nezhdanskoye deposit is used as a biocide. The mixture contains 80% As ₂ S ₃ (I), 5% As ₄ S ₃ , 5% As ₂ S ₂ , 10% As ₂ S ₅ (ratio I: II = 4: 1). The components of the composition are thoroughly mixed, frayed, heated to melting with stirring and kept at 100 - 120 ^o C for 20 minutes The resulting composition is applied in molten form to a steel plate.

T _PL = 59 - 68 ^o C.

 The plate is immersed in the sea for testing as described above.

 Test results.

 Exposure 130 days - no fouling.

 Exposure 392 days - fouling at the edges is negligible.

Claims (1)

Composition for applying an anti-fouling coating containing rosin, paraffin and a biocide, characterized in that it contains arsenic sulfides as a biocide obtained by sulfidation of arsenic wastes from the processing of polymetallic ores, or trisulfurous arsenic As ₂ S ₃ (I) and additionally a compound selected from series AsS, As ₂ S ₂ , As ₄ S ₄ , As ₂ S ₅ , As ₄ S ₃ or their mixture (II) in the mass ratio (I) :( II) = 20: 1 - 1:20 with the following content of components , wt.%:
Rosin - 40 - 60
Paraffin - 5 - 15
Biocide - 25 - 55th