Thermofixed geotextile with a density of 150g/sq.m (Ukraine)

Product code: 0145

Application in road construction, for filtration and drainage systems, for hydraulic structures

2358 uah

Thermofixed geotextile is a non–woven material made by passing a mass of ready-made raw materials from very thin threads through a number of harpoon needles that, piercing the mass of raw materials, entangle the threads with each other. 

Technology: Granulated polypropylene is extruded into fibers, which are further processed first on a carding machine, and then on a needle punching machine.
Many types of products undergo heat treatment with infrared radiation, hot air or calendering.

Main advantages:European quality of materials, availability of all necessary certificates

  • environmental safety
  • has a long service life (more than 25 years)
  • it has excellent water permeability
  • resistant to mold, does not rot and is not subject to corrosion
  • unique wear resistance
  • high coefficient of stretching
  • no stratification

Main functions:separation

  • filtering
  • drainage
  • protection
  • gain
  • tension equalization

Application in construction:Road construction – separation of different layers of road construction, reinforcement and increasing the bearing capacity of the road base;

  • Civil engineering – used as a separating layer of various materials, and is also a reliable protection of membranes from mechanical damage;
  • Filtration and drainage systems - prevents the penetration of fine-grained material into the drainage layer, protects drainage pipes from silting and strengthens the soil;
  • Hydraulic structures – is a reliable protection of waterproof membranes from ruptures, prevents the erosion of the banks of rivers and lakes.

Specifications:Roll sizes: width - 2 m, winding – 50 m



Surface density - 120±6 g/m2

Roll width - 200 cm

Breaking force along the length - not less than 2.8 kN/m

Width breaking force - not less than 2.8 kN/m

Elongation at break along the length - no more than 60%

Elongation at break across width - no more than 90%

Roll size: 2m x 50-100 linear meters. m (100-200 sq.m.)

Material: polypropylene;

Density: from 100 to 200 g/sq.m;

White color.

Laying geotextiles is a process that plays a key role in construction, especially when working with road surfaces, soil structures and landscaping.

Here are a few steps to help you install geotextiles correctly:

Surface preparation: Make sure the surface on which the geotextile will be laid is free of debris, sharp objects and stones. If necessary, carry out preparatory work, including leveling and compacting the soil.

Selection and installation of geotextiles: Select the appropriate type of geotextiles to suit your project requirements. When laying geotextiles, ensure that they are distributed evenly and without folds over the entire surface. Make sure that the geotextile is not damaged during installation.

Layering: If you need to use several layers of geotextiles, lay them in such a way that each layer overlaps the previous one by a sufficient length (usually at least 10-20 cm). This will help prevent soil penetration and maintain the integrity of the structure.

Fixation of geotextiles: It is important to ensure reliable fixation of geotextiles so that they do not move during construction work or as a result of environmental influences. To do this, you can use fasteners, pins, weights or other special devices.

Checking the installation quality: After installation is complete, check the quality of the work done. Make sure that the geotextile is laid flat and without folds, that it is securely fastened, and that there is no unexpected damage.

Protection of geotextiles: After laying geotextiles, it should be protected from external influences such as ultraviolet radiation, mechanical damage and chemicals. To do this, you can use additional protective layers or special coatings.

Following these steps will help ensure that geotextiles are installed correctly and remain effective throughout their lifespan.

Remember that the correct use of geotextiles is important for the durability and stability of building structures.

How to lay geotextiles correctly?

Geotextiles can be rolled out manually or using special equipment. It depends on the width of the roll. Make sure that the laying occurs in an even layer without folds or twisting. Before laying geotextiles, it is necessary to carefully remove rhizomes, stones and other debris, prepare the soil base, and level the area. When using several rolls, geotextiles are laid with an overlap, overlapping the adjacent fabric by 10-30 cm. This will help avoid mixing of layers and displacement when pouring bulk materials.

Which geotextile allows water to pass through better?

All geotextile fabrics allow water to pass through themselves well, but each type has its own water permeability indicator. The water permeability of geotextiles is determined by the amount of liquid passing through the canvas in a given period of time and is measured in l/sec/m2. The higher the density of geotextiles, the less water permeability it has. Therefore, geotextiles with a low density, from 80 to 200 g/m2, depending on the type of geotextile fabric, allow water to pass through better.

What is the difference between needle-punched geotextiles and heat-fixed ones?

Geotextiles produced by the thermofixed method are heated during production, making the fabric stronger and more resistant to mechanical stress. The ability of the fabric to pass water becomes significantly lower. Therefore, if you need geotextiles with high water permeability, use needle-punched geotextiles; if strength is a priority, use thermofixed geotextiles. The choice of method for producing geotextiles depends on its technical characteristics.

What geotextiles should be used to construct a temporary road?

Temporary roads are subject to heavy loads, as they will be used not only by passenger cars, but also by large-sized technological vehicles. It is worth giving preference to a fabric with increased strength indicators - thermofixed geotextiles with a density of 200-300 g/m².


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