Tel: +86-411-39569550 | E-mail: info@geofantex.com/geofantex@gmail.com
Geosynthetics is a general term for synthetic materials used in civil engineering. As a civil engineering material, it uses synthetic polymers (such as plastic, chemical fiber, synthetic rubber, etc.) as raw materials to make various types of products and place them inside, on the surface of, or between various soils. , To play the role of strengthening or protecting the soil.
Geogrid is a major geosynthetic material. Compared with other geosynthetics, it has unique performance and efficacy. Geogrids are often used as reinforcements for reinforced soil structures or composites. Geogrids are divided into two types: polyester/glass fiber geogrid and plastic geogrid.
Geosynthetics, different products have different characteristics and can be used in many engineering fields.
It has been applied in geotechnical engineering, civil engineering, water conservancy engineering, environmental engineering, traffic engineering, municipal engineering, land reclamation engineering, etc.
The fiberglass geogrid is a mesh structure material made of fiberglass and a certain weaving process. In order to protect the fiberglass and improve the overall performance, the geocomposite is made by a special coating process. The main components of glass fiber are: silicon oxide, an inorganic material, its physical and chemical properties are extremely stable, and have high strength, high modulus, high wear resistance and excellent cold resistance, no long-term creep; thermal stability Good performance; the net structure enables the aggregate to be locked and restricted; it improves the load-bearing capacity of the asphalt mixture. Because the surface is coated with special modified asphalt, it has double compound performance, which greatly improves the abrasion resistance and shearing ability of the geogrid.
The polymer is in a directional linear state and forms a long elliptical network integral structure with uniform distribution and high node strength. This kind of structure has quite high tensile strength and rigidity and provides the ideal force bearing and spreading interlocking system for the soil.
The outstanding advantage of uniaxial plastic geogrid is that it has little tendency to deform (creep) under long-term continuous load, and its creep resistance is much better than geogrids of other materials, which play an important role in improving the service life of the project.
The interlocking action between the grid mesh and the soil constitutes an efficient stress transmission mechanism so that the local load can quickly and effectively spread to a large area of the soil, thereby reducing the local damage stress and improving The purpose of the service life of the project.
The polymer is in a directional linear state and forms a long elliptical network integral structure with uniform distribution and high node strength. This kind of structure has quite high tensile strength and rigidity and provides the ideal force bearing and spreading interlocking system for the soil.
The outstanding advantage of uniaxial plastic geogrid is that it has little tendency to deform (creep) under long-term continuous load, and its creep resistance is much better than geogrids of other materials, which play an important role in improving the service life of the project.
The interlocking action between the grid mesh and the soil constitutes an efficient stress transmission mechanism so that the local load can quickly and effectively spread to a large area of the soil, thereby reducing the local damage stress and improving The purpose of the service life of the project.
The polymer is in a directional linear state and forms a long elliptical network integral structure with uniform distribution and high node strength. This kind of structure has quite high tensile strength and rigidity and provides the ideal force bearing and spreading interlocking system for the soil.
The outstanding advantage of uniaxial plastic geogrid is that it has little tendency to deform (creep) under long-term continuous load, and its creep resistance is much better than geogrids of other materials, which play an important role in improving the service life of the project.
The interlocking action between the grid mesh and the soil constitutes an efficient stress transmission mechanism so that the local load can quickly and effectively spread to a large area of the soil, thereby reducing the local damage stress and improving The purpose of the service life of the project.
End of content
End of content
WhatsApp us