Detailed Comparison Between Geotextile and Geogrid
Detailed comparison of geotextiles and geogrids. Generally speaking, geotextiles are used to prevent water seepage, and geogrids are used for reinforcement.
Geotextiles are mainly used in water conservancy for anti-concerns, drainage, protection, isolation, and can also be used for roadbed reinforcement, while geogrids are mainly used for roadbed reinforcement and reinforcement of retaining walls. The strength of the geogrid is much greater than that of the polypropylene nonwoven geotextile for sale, but the effect of the geotextile on preventing reflective cracks on the road is significantly stronger than that of the geogrid.
The role of geogrids and geotextiles is different. In simple terms, the role of geogrids is to stabilize the roadbed and extend the service life of the road. Geotextiles are mainly used for anti-seepage and isolation. Geogrids are generally used for reinforcement and reinforcement. There is a fundamental difference between the two. In the process of use, they are sometimes used in the same project, such as high-speed, railway and other projects. The grid is made of thermoplastic or molded two-dimensional grids or high-dimensional three-dimensional grid screens made of high molecular polymers such as polypropylene and polyvinyl chloride. When used as civil engineering, it is called e s.
Engineering application areas: highways, railways, abutments, approach roads, wharves, dams, slag yards, and other soft soil foundation reinforcements, retaining walls and pavement crack resistance projects. Fiberglass mesh is used for painting external walls and internal walls, mainly to prevent cracking and hollowing of plastering materials such as mortar at the junction of different materials. It will also be used for local node enhancements. Geotextiles have excellent filtering, drainage, isolation, reinforcement, anti-seepage, and protection functions. They have lightweight, high tensile strength, good permeability, high-temperature resistance, freeze resistance, aging resistance, and corrosion resistance. Common non-woven fabrics are used in the water layer, and polyethylene polypropylene waterproofing is also used.
Geotextile, also known as geotextile, is a water-permeable geosynthetic material made of synthetic fibers by needling or weaving. The finished product is cloth-like, with a width of 4-6 meters and a length of 50-100 meters. Geotextiles are divided into woven geotextiles and nonwoven geotextiles. Geotextiles have excellent filtering, drainage, isolation, reinforcement, anti-seepage, and protection functions. They have lightweight, high tensile strength, good permeability, high-temperature resistance, freeze resistance, aging resistance, and corrosion resistance.
Geotextile has excellent filtering, isolation, reinforcement and protection, high tensile strength, good permeability, high-temperature resistance, freeze resistance, aging resistance, and corrosion resistance. It is used in the reinforcement of railway subgrade, the maintenance of highway pavement, the protection of sports halls, dams, the isolation of hydraulic structures, tunnels, beaches, reclamation, environmental protection, and other projects. Geotextiles are generally used for the treatment of weak foundations and pavement maintenance. These two sets of materials are rated 1-3-9. Geotextiles are divided into soft soil subgrade and silt. High quality fiberglass geogrid is made of high-molecular polymers such as polypropylene and polyvinyl chloride Thermoplastic or molded two-dimensional grid-like or three-dimensional grid screens with a certain height when used as civil engineering, are called geogrids.