RU195117U1 - TECHNICAL POLYESTER FABRIC FOR MANUFACTURE OF SOIL-FILLED STRUCTURES - Google Patents

Abstract

The utility model relates to the creation of tools used to strengthen the walls of trenches, to create anti-erosion products, as well as to ballast pipelines, in particular gas pipelines, namely, to technical synthetic fabric for the manufacture of soil-filled structures that meet filtration requirements. predetermined filtration characteristics - water permeability (filtration coefficient within 3.2-4.4 m / day) due to stabilization under load throughput method of the core formed by the intersection of warp and weft of the unit cell, which ensures the shape stability of the soil-filled structure. This is achieved by the fact that the technical polyester fabric for the manufacture of soil-filled structures is formed by plain weave with a surface density in the range from 280 g / mdo to 320 g / m inclined to peeling complex technical polyester yarns obtained from a polyethylene terephthalate melt, with an initial elastic modulus of 400-500 cN / tex, with elongation at break in the direction of basis and weft no more than 30% and loss of tissue strength no more than 10% during cyclic freezing to minus 40 ° C and thawing. At the same time, complex technical polyester warp and / or weft threads can be twisted. The fabric may also contain twisted threads additionally introduced into the warp and / or into the weft. In addition, the loss of tissue strength during thermal aging should be at least 20%. And in the fabric structure after a certain distance along the base, a colored thread can be laid. The fabric is made in the form of a canvas up to 320 cm wide. 5 zp f-ly.

Description

The utility model relates to the creation of tools used to strengthen the walls of trenches, to create anti-erosion agents, as well as to ballast pipelines, in particular, to ballast gas pipelines, namely, to create technical synthetic fabric for the manufacture of soil-filled structures that meet filtration requirements.

In accordance with Appendix 2 to Instruction 51-2.4-007-97 (RAO Gazprom) “Combating Water Erosion of Soils on the Linear Part of Pipelines”, which came into force on July 1, 1997, measures are taken to protect against water erosion, erosion and exposing pipelines using soil-filled structures as textile material for ballasting pipelines provides for TBG-360 fabric. (www.gostrf.com/Basesdoc/8/8054/index.htm.). The specified technical polyamide fabric for ballasting gas pipelines TBG-360 is made of kapron (polyamide) threads with a linear density of 187 tex. The surface density of TBG-360 fabric is 355 ± 10 g / m ² . The breaking load of a tissue sample of 50 × 200 mm in the warp and weft is 360 kgf.

The closest known one is polyamide technical fabric, made by plain weaving with a surface density of 320-380 g / m ² of complex threads obtained from a melt based on poly-ε-caproamide, characterized by a linear density of 93-187 tex, with the basis of and / or twisted yarns are additionally introduced into weft at a given interval, and the intermediate longitudinal elongation of the fabric is not more than 10% at a load of no more than 25% of the fracture load (RU 104184, 05/10/2011).

The specified technical polyamide fabric, when used in soil-filled structures at a surface density that is sufficiently high for it, does not have the required filtering ability, which holds an excessive amount of moisture in the soil placed in the volume of such a structure, which does not ensure the shape stability of the soil-filled structures when loaded with soil.

The technical result is the provision of specified filtration characteristics - water permeability (filtration coefficient within 3.2-4.4 m / day) due to stabilization under load of the throughput formed by the intersection of warp and weft threads in the fabric structure, which ensures the shape stability of the soil-filled structure.

This is achieved by the fact that the technical polyester fabric for the manufacture of soil-filling structures is formed by plain weaving with a surface density in the range of values from 280 g / m ² to 320 g / m ² peeling complex technical polyester threads obtained from a melt of polyethylene terephthalate, with an initial elastic modulus 400-500 cN / tex, with an elongation at break in the direction along the warp and weft of not more than 30% and loss of tissue strength not more than 10% during cyclic freezing to minus 40 ° C and thawing. In this case, complex technical polyester warp and / or weft threads can be twisted. In addition, the loss of tissue strength during thermal aging should be at least 20%. A colored thread can be laid in the fabric structure after a certain distance along the base. The fabric is made in the form of a canvas up to 320 cm wide.

Polyester technical threads have high strength, moisture resistance, biological resistance, which allows them to be used for the manufacture of technical fabrics for the manufacture of products operating in difficult conditions, for example, for the manufacture of textile containers for storing and moving bulk materials, in particular, soil-filling structures for ballasting pipelines which are textile containers sewn from such fabric, the estimated service life of which under load is at least 30 years and operation in harsh climatic and hydrogeological conditions.

A causal relationship between the features and the indicated technical result is ensured by the fact that the initial modulus of elasticity of polyester yarns of 400-500 cN / tex is sufficient to ensure the implementation of the mission (the area of use of the fabric) by ensuring the shape stability of soil-filled structures under full design load by ensuring stable geometric indicators sizes of threads forming the structure of the fabric by interweaving warp and weft. The use of complex technical polyester yarns obtained from a melt of polyethylene terephthalate is associated with their tendency to peeling, which at a surface density in the range of values from 280 g / m ² to 320 g / m ² provides the required filtration coefficient precisely due to the possibility of the formation of pills (rolled, both on the basis and on the weft, parts of the fibers), which serve as elementary filters. In this regard, it has become possible to ensure the desired filtration to use fabric made from complex technical polyester yarns for soil-filled, with an elongation at break in the direction of the warp and weft of not more than 30% and loss of fabric strength of not more than 10% during cyclic freezing to minus 40 ° C and thawing.

Used polyester thread, unlike polyamide, is resistant to ultraviolet radiation, the action of acids and alkalis, and also resistant to changes in geometric dimensions from moisture without the use of additional processing. The tensile strength of polyester fibers is higher than other types of chemical fibers.

The claimed technical polyester fabric is made as follows.

значениями удлинений и большей упругостью, что приводит к нарушениям формоустойчивости.The fabric is woven with plain weave of complex polyester yarns obtained by forcing a melt of polyester granulate based on polyethylene terephthalate. The polyester granulate entering the extruder is melted at a temperature of 280-320 ° C and is fed to the dies by metering pumps. After dies, filaments (filaments) are subjected to cooling and further drawing. Subsequently, the thread enters the loom, which forms the structure of the future technical fabric. The number of filaments (filaments) in a complex polyester yarn ranges from 192 to 288. The edge of the fabric can be embedded, leno and / or fused. The range of surface densities of the fabric from 280 to 320 g / m ² allows you to divert the required amount of water from the containers of soil-filled structures. For soil-filled structures, a range of 4.4 to 3.2 m / day is permissible. Exceeding the water permeability parameter of more than 4.4 m / day leads to leaching of the inert material in addition to water, which must remain in the soil-filled structure to ensure its operability. With a water permeability value of less than 3 m / day, insufficient water drainage occurs, which leads to a violation of the dimensional stability of structures. The initial elastic modulus range from 400 to 500 cN / tex allows you to provide the required tissue characteristics for elasticity and elongation. With an increase in the elastic modulus of the threads over 400 cN / tex, the fabric becomes too stiff, with low characteristics of elasticity and elongation, which leads to a violation of the dimensional stability of the structures. With an increase of more than 500 cN / tex, the tissue becomes unstable, with

values of elongations and greater elasticity, which leads to violations of dimensional stability.

The tests were carried out in accordance with GOST R 52608-2006 “Geotextile materials. Methods for determining water permeability. " The results are summarized in table 1.

Claims (6)

1. Technical polyester fabric for the manufacture of fillable structures is formed by plain weaving with a surface density in the range of values from 280 g / m ² to 320 g / m ² , prone to peeling complex technical polyester yarn obtained from a melt of polyethylene terephthalate, with an initial elastic modulus of 400- 500 cN / tex, with an elongation at break in the direction along the warp and weft of not more than 30% and loss of tissue strength not more than 10% during cyclic freezing to minus 40 ° C and thawing. 2. The fabric according to claim 1, characterized in that the complex technical polyester warp and / or weft are twisted. 3. The fabric according to claim 1, characterized in that it further comprises twisted threads additionally introduced into the base and / or weft. 4. The fabric according to p. 1, characterized in that the loss of tissue strength during thermal aging is at least 20%. 5. The fabric according to claim 1, characterized in that a colored thread is laid in the fabric structure after a certain distance along the base. 6. The fabric according to claim 1, characterized in that it is made in the form of a canvas up to 320 cm wide.