RU47072U1 - COMPOSITE MATERIAL TAPE - Google Patents

Abstract

Usage: the utility model relates to construction and is used when laying and repairing pipelines transporting pressure liquid or gas. Objective: improving the reliability of the anti-corrosion coating of steel pipelines and improving the manufacturability of the process of manufacturing protective tapes. Due to the high strength of the tape made of propylene with sevilen, it is simultaneously reinforcing and vapor- and waterproofing, and an additional laminating coating increases the thickness of the tape and protects it from external factors. The essence of the utility model: the tape is made of polypropylene with the addition of sevilen in the range of 1-11%, and the ratio of the conditional tensile strength in the transverse and longitudinal directions is in the range from 1/10 to 1/3, and the thickness of the tape is 36-160 microns. After polymerization of the melt, the tape is stretched in the longitudinal direction by 200% -600%, while compressing in the transverse direction by 20-65% and thinning by 30-80% compared with the tape without stretching. The tape has a specific strength in the longitudinal direction of at least 4.0 times greater than the specific tensile strength without combined tension and tension. The tape may be laminated. The lamination coating may contain sevilen. The lamination coating may contain polyethylene. The lamination coating can be made in black. The lamination coating may contain a UV stabilizer.

Description

The utility model relates to construction and is used when laying and repairing pipelines transporting pressure liquid or gas.

Known tubular film and method of its manufacture (p. RF No. 2158088, A 22 C 13/00, publ. 10/27/2000.), Having a surface area containing material that has been regenerated from the cellulose solution and dried, and the tubular film after regeneration stretches in the longitudinal direction from the lower limit of 10% and at the same time stretches in the transverse direction from -20 to + 40% in the wet state, while stretching is maintained during drying, and the combined longitudinal and transverse stretching is sufficient to increase the area over the film surface is at least 10% compared to the surface area immediately after regeneration, and the combined longitudinal and transverse stretching provides longitudinal shrinkage from re-wetting of at least 2%, while the tubular film has a wall thickness of 60-90% of the wall thickness the same tubular film without combined stretching.

A known method of repairing a pipeline and a polymer tape for its implementation (p. RF No. 2208195, F 16 L 55/17, publ. 07/10/2003), consisting of a composite material containing several impregnated binder layers of fiberglass. The tape contains an inner reinforcing layer of roving with the ratio of the number of strands along the tape along the base and in the direction perpendicular to the weft equal to the ratio of the annular and axial stresses acting in the pipeline, respectively, the layers

the tapes are impregnated with adhesive and dried to a prepreg state, and the tape is continuous with a double-sided wrapping of a propylene film.

The disadvantage of the analogue and the prototype is the lack of strength, reduced vapor and waterproofing properties of the tape, which is especially necessary when operating and restoring the bearing capacity of the repaired section of the pipeline.

The objective of the utility model is to increase the reliability of the anti-corrosion coating of steel pipelines and to increase the manufacturability of the process of manufacturing protective tapes. Due to the high strength of the tape made of polypropylene with sevilen, it is simultaneously reinforcing and vapor- and waterproofing, and an additional laminating coating increases the thickness of the tape and protects it from external factors.

The problem is solved in that the tape, in contrast to the prototype, is made of polypropylene with the addition of sevilen in the range of 1-11%, and the ratio of the conditional tensile strength in the transverse and longitudinal directions is in the range from 1/10 to 1/3, and the thickness of the tape makes 36-160 microns. After polymerization of the melt, the tape is stretched in the longitudinal direction by 200% -600%, while compressing in the transverse direction by 20-65% and thinning by 30-80% compared with the tape without stretching. The tape has a specific strength in the longitudinal direction of at least 4.0 times greater than the specific tensile strength without combined tension and tension.

The tape may be laminated. The lamination coating may contain sevilen. The lamination coating may contain polyethylene. The lamination coating can be made in black. The laminating coating may contain a UV stabilizer.

It was established experimentally that when adding sevilen less than 1% of the tape breaks easily, and more than 11% of the tape loses its strength, and in the above limits the tape has a maximum tensile strength.

When performing a black lamination coating, the entire spectrum of solar radiation is absorbed, as a result of which the inner layers are protected from destruction in sunlight and in daylight.

By supplying a laminating coating with an UV stabilizer, the durability of the coating is increased.

An example of a specific implementation.

The width of the tape is 1-0.4 m, the thickness is 36-160 μm, the thickness of the laminating coating is 15-60 μm, the specific tensile strength in the longitudinal direction is at least 200 MPa, in the transverse direction at least 10 MPa. Without stretching and tightening, the greatest specific strength in the longitudinal direction is 50 MPa, and the tape parameters: width - 1.35 m, thickness - 80-250 microns. The vapor permeability of such a tape is not more than 10 g / m ² × 24 hours, which, together with high strength properties in the longitudinal direction, reliably ensures the fulfillment of the task of anticorrosive protection of steel pipelines after their coating.

Claims (6)

1. The tape is made of composite material, characterized in that the tape is made of polypropylene with the addition of sevilen in the range of 1-11%, and the ratio of the conditional tensile strength in the transverse and longitudinal directions is in the range from 1/10 to 1/3, and the thickness the tape is 36-160 microns. 2. The tape according to claim 1, characterized in that the tape is provided with a laminating coating. 3. The tape according to claim 1 or 2, characterized in that the laminating coating contains sevilen. 4. The tape according to claim 1 or 2, characterized in that the laminating coating contains polyethylene. 5. The tape according to claim 1 or 2, characterized in that the laminating coating is made in black. 6. The tape according to claim 1 or 2, characterized in that the laminating coating contains a UV stabilizer.