Geomat for Construction
Geomat is a waterproof three-dimensional erosion controlling carpet. It is used to protect bare soils from erosion and encourage re-vegetation. It can also be used to stabilize slopes and reduce landslide risks.
Erosion is a serious issue that can cause many problems. Irregular water dispensing, thin soil layers and interrupted navigation are some of the side effects of erosion. It can also result in poor vegetation.
Prevents erosion
The use of geomat for construction can prevent erosion and make the soil more stable. Moreover, it can also reduce the cost of Geomat for construction reseeding and revegetation. Erosion is a common problem that leads to the loss of soil, disrupts navigation and causes other side effects such as poor revegetation in agricultural lands.
To overcome this problem, various methods have been developed to prevent erosion by stabilizing the slopes. One of these techniques is the use of a three-dimensional geomat, which has been proven to be an effective means of preventing erosion. This geomat consists of a central part made of polyethene and a synthetic geogrid that supports the shear forces caused by hydric erosion and stabilizes the soil.
This mat can be used in a variety of construction projects, including dam slopes, access road slopes and flyover slopes. It is available in several different types and can be customized according to the requirements of each project. The tensile strength of the mat ranges from 0.8 KN/m to 3.2 KN/m, and it is highly flexible and non-toxic. In addition, it is easy to handle and install in wet conditions.
There are several different types of geomat for construction, and each type has its own specifications and standard roll diameter sizes. The most popular type is EM2, which can be easily purchased from many stores online or offline. Alternatively, you can also choose the EM5 type, which is suitable for slopes that are not too steep.
Stabilizes the slope
GEOMAT is a light flexible material which can be used as an alternative to massive and ecologically unfriendly concrete, stone or asphalt constructions. Its open surface and strip hardness allow soil to be filled with ease all over its area and depth, encouraging root germination and fast vegetation of slopes. It guarantees erosion control by reducing the surface velocity of water.
When plant coverage reaches 90%, it can withstand the scour of heavy rains up to 6m/sec and increase the amount of infiltration. It also prevents erosion of the top soil layer and promotes regrowth of vegetation.
Geomat can be reinforced with a geotextile fabric or a geomembrane on one or two sides for embankments drainage or steep or rocky slopes to prevent soil slipping. It can also be reinforced with a hexagonal wire mesh, which ensures plants hold tightly to the mat.
This technology is very helpful in preventing erosion, controlling linear protection and environment recovery in construction projects. It can also reduce the cost of a project by seven times compared to using concrete for the same purpose. It is especially useful for slopes that are exposed to fire risk, earthquake and flood risks. It is also great for protecting roads, dams, access road slopes and flyover slopes. It can even be used in the construction of reclaimed land, reducing the need for costly excavation and landfills.
Reinforces the soil
When a slope becomes unstable, erosion can result. This can cause loss of soil, disruption of water distribution and poor revegetation. To prevent this, geomats are installed. They are made of jute yarn and have an open mesh structure, which helps soil particles, seed and grass roots to remain secure. They also allow for proper drainage and absorb water. The combination of these factors helps protect the slopes from erosion.
Geomats can be used in construction to stabilize a steep slope. They can also be used in re-cultivation of landfills. To install them, first clean and level the target slope surface. After that, bury the Geomat in the slope. Next, spread the soil backfill evenly on the Geomat and compact it. Finally, spray seeded grass mixture evenly on the top of the soil backfill with a hydraulic spray seeding machine.
There are several types of Geomats available for construction. The type of geomat you choose depends on your project’s requirements. For example, stone chipping backed 3D geomats are ideal for slope protection in areas that receive mineral-dense water. They reduce the risk of filter bag erosion by over 50% compared to unprotected slopes. They are also highly flexible and can replace concrete, asphalt, and stone slope materials. They are light and easy to handle. They are also durable and can withstand severe weather conditions.
Stimulates vegetation
Erosion is a serious problem that can lead to loss of fertile topsoil and degradation of land. It can also destroy roads, railways, and other infrastructure. Geomats can help prevent soil erosion by stabilizing slopes and preventing landslides. They can also provide a more favorable environment for vegetation growth and promote biodiversity in the landscape.
A three-dimensional geomat is a water-permeable synthetic product that is used to protect slopes from the degrading effects of rain, drain water, wind and waves. It is made of polymer fibers and can be used for a wide range of applications, including embankments and rocky, soil steep slopes. Geomats are available in a variety of materials, including biodegradable options.
The main purpose of using a 3D geomat is to encourage the growth of grass and shrubs on the slope. This can be an ideal solution for areas where the soil is subject to erosion and landslides, especially in mountainous regions. It is an environmentally friendly alternative to conventional erosion control methods, which can be costly and time consuming to implement. In addition, it can improve the reliability of the slope’s stability, reducing maintenance costs and environmental impacts. In addition, it can also increase the productivity of hydroelectric power plants by reducing sediment deposits in reservoirs. However, the effectiveness of a geomat in these conditions depends on the water characteristics.