RU2368637C1 - Mastic - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to materials for protection against corrosion of pipeline metal surfaces and electric cables in metal casing, and also to materials for sealing of accumulators. Mastic based on asmol contains oil dissolvent, ASM glue, plasticiser, bivinyl styrene thermoplastic elastomer DST and syndiotactic 1.2 polybutadiene. Mastic may additionally contain chalk.

EFFECT: mastic has high resistance to loads due to increase of its strength characteristics, when mastic is applied onto polymer base, possibility is provided to use tape at low temperatures (up to -20°C).

2 cl, 1 tbl

Description

The invention relates to the field of construction and operation of trunk pipelines, oil pipelines and gas pipelines, in particular to materials for corrosion protection of metal surfaces of pipelines.

Known bitumen-polymer mastic, including bitumen, divinyl styrene thermoplastic elastomer, industrial oil as a plasticizer and rubber as a modifier in the following ratio of components, wt.%:

Bitumen 40-80 Divinyl styrene thermoplastic elastomer 1-10 Plasticizer 1-6 Modifier 1-7

[Pat No. 2192578, cl. F16L 58/12, publ. 2002].

However, this mastic does not provide reliable protection of the pipeline due to insufficiently high adhesion to the metal surface (0.5-0.6 MPa), which is explained by the low adhesive ability to the metal of the main component - bitumen.

The authors have developed mastic, including asmol, the main polymer component, which has physico-chemical characteristics similar to bitumen, but with much higher adhesion to metal (1.0-1.5 MPa). For the first time, asmol (an asphalt-resin compound in the form of an asphalt-resin oligomer) was obtained by reacting asphalt deasphalting tar with bottoms from the production of isoprene from the stage of regeneration of dimethyl formaldehyde in the presence of sulfuric acid [Pat. RF №2074224, cl. C10C, publ. 1997]. Subsequently, to obtain asmole with similar qualities, the second component was replaced with a heavy resin - bottom residue of dimethylformamide regeneration (CORD) [N.M. Cherkasov, I.F. Gladkikh, K.M. Gumerov, I.U.Subaev. Asmol and new insulation materials for underground pipelines. - M .: Nedra-Business Center LLC, 2005, p. 108].

Closest to the claimed object is a mastic containing asphalt resin compound “asmol”, mineral oil C-9 as a plasticizer, divinyl styrene thermoelastostoplast, antioxidant and chalk in the following ratio of components, wt.%:

Asmol 73.0-77.0 Mineral oil S-9 15,5-17,0 Divinyl styrene thermoplastic elastomer 3.5-4.0 Antioxidant 0.5-1.9 a piece of chalk 1.0-4.0

[RF patent No. 2138884, cl. H01M 2/08, S09K 3/10, publ. 1999].

This mastic is intended for sealing batteries and is unsuitable for use as an adhesive layer of polymer adhesive tapes. The mastic has good adhesion to metal and polypropylene, however, the softening temperature according to KiSh above 100 ° C makes it impossible to carry out the manufacturing process of the tape, as it has a low fluidity of the melt of the mastic. In addition, the increased chalk content in mastic (up to 4%) leads to increased water absorption of mastic.

The invention is aimed at improving the quality of mastics to give it high protective properties and applying it as an adhesive layer for polymer adhesive tapes: lowering the softening temperature of mastics, increasing adhesion to polyethylene and polyvinyl chloride at low temperatures, reducing water absorption, increasing the resistance of the coating to peeling at cathodic polarization and deformation loads.

This is achieved by the fact that mastic based on asmol containing DST divinylstyrene thermoelastoplast, oil as a plasticizer, according to the invention additionally contains AFM glue, Nefras solvent and syndiotactic 1,2 polybutadiene, while mastic contains rapeseed oil in the following ratio components, wt.%:

Asmol 61.0-94.0 Nefras solvent 1.0-6.0 Divinyl styrene thermoelastoplast DST 0.9-3.0 Syndiotactic 1,2-polybutadiene 0.1-2.0 Rapeseed oil 1,0-17,0 Adhesive AFM 6.0-11.0

Mastic may additionally contain chalk in the following ratio of components, wt.%:

Asmol 61.0-94.0 Nefras solvent 1.0-6.0 Divinyl styrene thermoelastoplast DST 0.9-3.0 Syndiotactic 1,2-polybutadiene 0.1-2.0 Rapeseed oil 1,0-17,0 Adhesive AFM 6.0-11.0 a piece of chalk 0.3-0.5.

Asmol is a black solid elastic material with a density of 0.99-1.06 kg / cm and is produced at UZEMIK (Ufa) according to TU 5623-002-05111644-96 “Asmol Mastic Composition for Anticorrosion Coatings”.

The Nefras solvent is produced in the domestic industry on a large-capacity scale in accordance with GOST 10214-78 Oil Solvent. Technical conditions. " For example, it is produced by Salavatorgsintez OJSC, Ufaorgsintez OJSC, Lukoil-Permnefteorgsintez OJSC, etc.

DST divinylstyrene thermoelastoplast is a block copolymer based on styrene and butadiene and is manufactured by Voronezhsintezkauchuk OJSC according to TU 38.40327-98.

Syndiotactic 1,2 polybutadiene is a commercial product and is produced, in particular, under the trademark Efrodien SN-8000 at OJSC Efremov Synthetic Rubber Plant.

Rapeseed oil is produced at Tatraps OJSC according to GOST 8988-77 “Rapeseed oil. Technical conditions. "

AFM glue is a solution of a rubber compound based on butyl rubber and asmole in a gasoline solvent for the rubber industry. ASM glue is an affordable commercial product and is produced at UZEMIK OJSC (Ufa) in accordance with TU 2513-032-16802026-2007 Anticorrosive Adhesive Composition (AFM Glue).

The preparation of the proposed mastic is as follows.

The calculated amount of rapeseed oil, AFM glue, Nefras solvent, divinylstyrene thermoplastic elastomer DST, syndiotactic 1,2-polybutadiene with increasing temperature to 100-110 ° C is loaded, mixed until the polymers are completely dissolved, then the temperature is increased to 125-130 ° C and add asmol, followed by stirring until completely dissolved at a temperature of 130-150 ° C (within 8-13 hours), then chalk, if necessary.

According to the claimed method were obtained mastics, the compositions of which, as well as physico-chemical characteristics are presented in the table. There, for comparison, the composition and properties of the mastic obtained according to the prototype are given.

As can be seen from the table, the proposed mastic surpasses the prototype in its physicomechanical properties: it has a lower softening temperature according to KiS, higher adhesive properties to metal and polymer base, high resistance to cathodic peeling, low water absorption of the mastic.

Thus, the use of the proposed mastic will allow, in comparison with the mastic of the prototype, to use it as an adhesive layer of polymer adhesive tapes, providing their high protective properties: high adhesion to metal and polymer base, resistance to peeling during cathodic polarization and deformation loads, low water absorption, the possibility of using the tape at low temperatures (up to minus 20 ° C).

The composition and comparative characteristics of the proposed mastic and mastic prototype Indicators Examples on the proposed mastic prototype one 2 3 four The content of components, wt.%: - Asmol 61.0 79.0 78.7 94.0 77.0 - Divinylstyrene thermoelastoplast DST 3.0 2.0 2.0 0.9 4.0 - 1,2-polybutadiene 2.0 2.0 2.0 0.1 - - Solvent "nefras" 6.0 1,0 1,0 3,5 - - rapeseed oil 17.0 10.0 10.0 1,0 - - Adhesive AFM 11.0 6.0 6.0 - - - A piece of chalk - - 0.3 0.5 3.0 - Mineral oil S-9 - - - - 15.0 - antioxidant - - - - 1,0 Physico-chemical properties of mastic: - Softening temperature according to KiSh, ° С 75 83 85 94 102 - Penetration of mastic at 25 ° C, 0.1 mm 90 72 60 64 60 - Adhesion to steel at (20 ± 3) ° С, kgf / cm 2.5 3,1 3.2 3,7 2.0 - Adhesion to polyethylene and polyvinyl chloride (overlapping) at (20 ± 3) ° C, kgf / cm 2.1 2.5 2.6 2.6 1,5 - Ribbon flexibility No bending cracks at temperature -20 ° C -10 ° C -10 ° C 0 ° C 0 ° C - Water absorption in 24 hours three (20 ± 3) ° С,% 0.10 0.10 0.15 0.17 3.0 Peeling area * at cathodic polarization after exposure to an electrolyte at (20 ± 3) ° С for 30 days, cm ² , 2.7 3.2 3.4 3.0 15,2 * The larger the peeling area, the lower the protective properties of the coating

Claims (2)

1. Asmol-based mastic containing DST divinylstyrene thermoelastoplast, oil as a plasticizer, characterized in that it additionally contains AFM glue, Nefras solvent and syndiotactic 1,2-polybutadiene, while mastic contains rapeseed oil as follows the ratio of components, wt.%:
Asmol 61.0-94.0 Nefras solvent 1.0-6.0 Divinyl styrene thermoelastoplast DST 0.9-3.0 Syndiotactic 1,2-polybutadiene 0.1-2.0 Rapeseed oil 1,0-17,0 Adhesive AFM 6.0-11.0 2. Mastic according to claim 1, characterized in that it further comprises chalk in the following ratio of components, wt.%:
Asmol 61.0-94.0 Nefras solvent 1.0-6.0 Divinylstyrene thermoelastoplast DST 0.9-3.0 Syndiotactic 1,2-polybutadiene 0.1-2.0 Rapeseed oil 1,0-17,0 Adhesive AFM 6.0-11.0 a piece of chalk 0.3-0.5