CS247244B1 - Bound geotextile with temporary life - Google Patents

Abstract

Bonded geotextile with temporary durability is made of a fibrous layer, optionally reinforced with a system of differently arranged threads. At least 20% of the fibrous layer is made of fibers subject to environmental influences, mainly the influence of microorganisms and moisture, while the formation is connected non-continuously by a binder. The fibrous layer subject to environmental influences mainly consists of a system of differently arranged threads. The binder is distributed randomly or forced in the form of clusters. The binder is a polymer with little resistance to environmental influences, for example cellulose ethers and esters, native proteins, starch and its modifications. Bonded geotextile with temporary durability is intended for strengthening roads in low-bearing terrain such as open-pit mines, agricultural and forestry, industrial and residential buildings.

Description

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The invention relates to a bonded geotextile with temporary durability.

The use of geotextiles in the construction industry brings many technical and economic advantages and therefore their application is expanding very quickly. The most effective types of geotextiles are produced by needle-punching technology, or by forming directly from polymer, that is, under a nozzle. The most important problem, in addition to functional properties such as good separation, filtration properties and resistance to mechanical stress, is long-term durability under external biological, chemical and mechanical influences.

In some cases, however, it is necessary to build roads that must be dismantled and the soil recultivated after a relatively short period of time, i.e. a few months or a few years. In these cases, both the high mechanical strength of geotextiles required for road construction and the long-term durability of the basic fiber-forming polymers are a disadvantage, so that dismantling roads using conventional construction techniques and recultivation are associated with a number of difficult, often technically insoluble problems. Given the growing necessity of environmental protection, the possibility of complete disintegration of an otherwise continuous layer of geotextiles is very significant.

This problem was partially solved by the methods specified in AO 252 776 and AO 207 076. ^In the first case, geotextiles for temporary use are formed by interlacing, in which the reinforcing or binding component is formed by a system of threads made of polymers that are less resistant in the soil environment, in the second case, a needled textile, in which the binding bundles of fibers created by needling contain mainly cellulose fibers that are also quickly affected by the environment. The technologies of interlacing and needling on needle-punching machines are progressive compared to classic textile technologies. However, they do not reach such economic parameters, given primarily by the production speed and continuity of production, as the technology of producing bonded textiles.

This primarily economic production problem is solved by a bonded geotextile with a temporary service life, intended for strengthening roads in low-bearing terrain such as open-cast mines, agricultural and forestry, industrial and residential buildings, formed from a fibrous layer, optionally reinforced with a system of differently arranged threads, according to the invention. Its essence lies in the fact that at least 20% of the fibrous layer is formed by fibers subject to environmental influences, mainly the influence of microorganisms and moisture, while the formation is connected discontinuously by a binder.

It is advantageous if the woven layer subject to environmental influence consists mainly of a reinforcing system of differently arranged threads and the binder is distributed randomly or forced in the form of clusters. The binder can advantageously be a polymer resistant to environmental influence, for example esters and cellulose esters, native proteins, starch and its modifications.

The geotextile according to the invention has good mechanical properties and, when incorporated into a road, has the necessary functional properties such as separation and filtration capabilities. The production of the geotextile according to the invention is fast and continuous, which is very economically advantageous.

The invention and its effects are explained in more detail in the description of examples of its embodiment, where examples 1 to 4 present the characteristics, method of production and some uses of the bonded geotextile with temporary durability according to the invention.

Geotextiles for temporary use consist of a bonded fabric, in which the fibrous layer consisting of a filling of basic fibers and a proportion of binder fibers is reinforced with a system of threads and the formation is connected under heat, for example by pressing between heated calender rolls. The production speed, depending on the weight of the fleece and the parameters of the calender, usually reaches 3 247 244 10 to 50 m/min. When binder fibers are used under suitable conditions, the distribution of the binder in the fabric is discontinuous. The reinforcing element of the bonded fabric consists of one or several systems of threads placed in the main directions of stress on the fabric during road construction. It meets almost any requirement for the deformation properties of the geotextile and the isotropy of their properties. The material essence of the threads are polymers that are easily affected by the environment, i.e. water, its acidity, the content of various pollutants and microorganisms. This geotextile has good mechanical properties during construction and, when incorporated into the road, the necessary functional properties such as separation and filtration ability, which remain preserved even after the complete destruction of the reinforcement and a significant reduction in strength, that is, after 12 months or more.

Example 1

Geotextiles intended for the construction of temporary roads in open-cast mines, which are to be disposed of after 3 to 12 months, consist of a 200 g/ ^m2 fleece _{made of} torn materials containing mainly synthetic fibers with a melting point above 200 °C, such as polyester, polyacrylonitrile, polyamide fibers with an admixture of 20% of binder fibers with a melting point at least 30 °C lower than that of fibers made of chlorinated polyvinyl chloride, polypropylene, fibers made of fibrillated polypropylene, polyethylene foils and bicomponent fibers of the above types. This fleece is reinforced on both sides by longitudinally guided sets of threads with a pitch of 15 mm made of viscose cord, or cotton or mixed yarns and interconnected by exposure to temperatures up to 180 °C' during, simultaneous or subsequent application of pressure.

Example 2,

Geotextiles intended for the construction of temporary forest roads and roads to temporary agricultural facilities consist of a fleece as in example 1 with a weight of 250 g/m ² with a proportion of 30% of binding fibres. The fleece is reinforced in the transverse direction by a system of threads or threads laid in the form of overlapping loops. This system is pre-reinforced by needling with an intensity of 120 punctures/cm^ and then exposed to the influence of heat and pressure as in example 1.

AND

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Example 3

Bonded geotextile for reinforcing banks intended for grassing and shrub planting is made from a fleece of fibrous waste of synthetic polyester and polyamide fibers, in which the polyamide content is 35%. The fleece is interconnected between two sets of threads made of viscose cord silk at a temperature of 240 °C.

Example 4

Bonded geotextiles for temporary access roads in large-scale construction projects, where the land is to be reclaimed in a relatively short period of time after its liquidation, are made in such a way that a fibrous fleece made of any secondary short-fiber raw materials with randomly oriented fibers, as arranged in pneumatic fleece production, is placed on a longitudinally guided system of threads with a transversely placed system of threads or a system of threads laid in loops. Waste cotton yarns are used as reinforcing threads. The entire combined fibrous layer is reinforced by needling with an intensity corresponding to 150 punctures/cm ² . The reinforced needled textile thus formed is impregnated between a pair of rollers with a foamed glue solution in a total amount of 5% dry matter per textile weight and dried.

Claims (4)

object of the invention 247 244 1. Temporary-life bonded geotextile, intended to reinforce roads in poor-bearing terrain such as open-cast mines, agriculture and forestry, buildings, industrial and residential construction, consisting of a fiber layer, characterized in that at least 20% of the fiber layer consists of fibers subject to environmental influences, especially microorganisms and moisture, wherein the formation is interconnected by a discontinuous binder. 2. A bonded geotextile according to claim 1, characterized in that the environmental layer of fiber is predominantly a reinforcing system of yarns of different yarns. 3. A bonded geotextile according to Claims 1 and 2 _f, characterized in that the binder is distributed randomly or forced in the form of clumps. 4. A bonded geotextile according to Claims 1, 2 and 3, characterized in that the binder is a low-environmental polymer such as cellulose ethers and esters, native proteins, starch and modifications thereof.