RU218603U1 - GEOFABRIC WOVEN - Google Patents

Abstract

The utility model relates to building materials used in the construction of reinforced soil structures of roads, earthworks, including for separating structural layers, anti-erosion protection, protective and retaining layers, etc. The objective of the utility model is to increase the resistance of the geotextile to solar radiation. The technical result is achieved by a woven geo-web made by plain weave of polypropylene film threads, the threads are made white, while the warp threads are preliminarily subjected to a tensile effect in the amount of 20÷30% of the maximum allowable tensile load, and the weft threads are preliminarily subjected to a tensile effect in the amount of 40÷50% from the maximum allowable tensile load.

Description

The claimed utility model relates to building materials used in the construction of reinforced soil structures of roads, earthworks, including for separating structural layers, anti-erosion protection, protective and retaining layers, etc.

An analogue of the claimed utility model is a woven geotextile (technical fabric) made of plain, twill or satin weave of warp threads and weft threads from polypropylene fibrillated film threads with the same or different linear density (see patent RU No. 2177515, IPC D03D 15/00, 2001 G.). The essential features of the analog "plain weave of warp and weft threads, polypropylene film threads" coincide with the essential features of the claimed utility model.

The disadvantage of the analog is the lack of resistance to sunlight (including ultraviolet radiation) due to the insufficient reflectivity of the woven geotextile.

Another analogue of the claimed utility model is a woven geotextile (technical fabric) made of diagonal or twill weave from polypropylene yarns, each of which contains two or more monofilaments, each monofilament is made in the form of a film tape folded four or more times in the longitudinal direction ( see patent RU No. 50225, IPC D03D 15/00, 2005). The essential features of the analogue "made by weaving, polypropylene threads, film tape" coincide with the essential features of the claimed utility model.

The disadvantage of the analog is also the lack of resistance to sunlight (including ultraviolet radiation) due to the insufficient reflectivity of the woven geotextile.

The closest analogue of the claimed utility model is a woven geotextile (technical fabric) containing polypropylene film threads interwoven with plain weave (see patent RU No. 19289, IPC D03D 15/00, 2001). The essential features of the closest analogue "intertwined plain weave, film threads of polypropylene" coincide with the essential features of the claimed utility model.

The disadvantage of the closest analogue is also insufficient resistance to sunlight (including ultraviolet radiation) due to insufficient reflectivity of the woven geotextile.

The task to be solved by the claimed utility model is to increase the resistance of the geotextile to solar radiation by increasing the reflectivity of the geotextile.

To achieve the specified technical result in a geotextile fabric made by plain weave of polypropylene film threads, the threads are made white, while the warp threads are preliminarily subjected to a tensile effect in the amount of 20 ÷ 30% of the maximum allowable tensile load, and the weft threads are preliminarily subjected to a tensile effect in the amount of 40 ÷50% of the maximum allowable tensile load.

The essential features of the claimed utility model "the threads are made white, the warp threads are preliminarily subjected to a tensile effect in the amount of 20÷30% of the maximum allowable tensile load, the weft threads are preliminarily subjected to a tensile effect in the amount of 40÷50% of the maximum allowable tensile load" are distinctive from the features closest analogue.

Woven geotextile is made of plain weave of white polypropylene non-fibrillated threads. The threads are preliminarily subjected to tensile stress, for example during rewinding. The magnitude of the tensile effect is for warp threads from 20% to 30% and for weft threads from 40% to 50% of the maximum allowable tensile load for threads of the corresponding sizes.

A woven geotextile can be produced using known weaving methods with a preliminary tensile load on the threads.

A specific example of the claimed utility model is a geotextile woven from white polypropylene yarns with a tensile strength in the longitudinal direction (maximum allowable tensile load) of ≈80 kN/m.

Preliminary exposure of the tape threads to a tensile load in the indicated ranges gives the threads a smoother surface without affecting their strength characteristics. As a result, the reflectivity of the filaments increases and, accordingly, the amount of absorbed radiation decreases. As a result, resistance to sunlight is improved.

Claims (1)

Geotextile woven, made by plain weave of polypropylene film threads, characterized in that the threads are made white, while the warp threads are preliminarily subjected to a tensile effect in the amount of 20 ÷ 30% of the maximum allowable tensile load, and the weft threads are preliminarily subjected to a tensile effect in the amount of 40 ÷ 50 % of the maximum allowable tensile load.