Geocells and Geogrids - High Tensile Plastic Geogrid with the Best Price

Geocells and Geogrids - High Tensile Plastic Geogrid with the Best Price System 1

Geocells and Geogrids - High Tensile Plastic Geogrid with the Best Price

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Loading Port:: China Main Port

Payment Terms:: TT OR LC

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Quick Details

Type: Geogrids
Place of Origin: Shandong, China (Mainland)
Material: PlasticModel Number: TGDG
Material: Plastic-Steel,HDPE/PP
Color: black etc.
Length: 50-100m(or at request)
Certificate: CE/ISO9001,14001
Sample: available

Packaging & Delivery

Packaging Details:	Standard exporting package , or as your special request .
Delivery Detail:	about 7 working days .

Specifications

High tensile geogrid
1.Tensile strength: 15~100KN/M
2.Color:black and etc
3.Material:PP/PE
4.Certificate:CE/ISO9001,14001

High tensile geogrid :

Specification

Double-direction geogrid is made of high molecular polymer through extrusion, forming and punching before longitudinal and lateral stretching. This material has considerable tensile strength in longitudinal and lateral directions. This chain structure can effectively bear and diffuse forces on soil and is applicable to large area permanent load bearing foundation as a reinforce.

Biaxial geogrid is made of pp/pe,mainly applied in highway, railway, slope protecting project
Product Features
1. Increase the bearing capacity of the roadbed and foundation and prolong their service life.
2. Prevent road surface and foundation from sinking or flawing, keep clean and beautiful ground surface.
3. Convenient construction saves time and labor, reduce mounting time and decrease maintenance expense.
4. Prevent culverts from flawing.
5. Enhance earth slope and prevent water loss and soil erosion.
6. Decrease underlayer thickness and save manufacturing cost.
7. Size & Specification

Name:

Geogrid (BX) Geogrid BX Geogrid

Biaxial geogrid

Note:

Dimensions and Properties

Typical Dimensions mm
	KN	2020LKN	KN	3030LKN	KN	4040LKN
Pmd	40	65	40	60	33	54
Pld	40	65	40	60	33	54
Wmd	2.0	3.3	2.2	3.3	2.3	3.5
Wld	2.4	4.0	2.7	4.0	2.6	4.5
Tj	4.1	4.3	4.3	6.5	5.5	7.5
Tmd	1.0	1.0	2.0	1.5	2.3	1.8
Tld	0.8	0.9	1.4	1.4	2.0	1.6

Q: Can geogrids be used in soil stabilization for slopes?: Yes, geogrids can be used in soil stabilization for slopes. Geogrids are commonly used to reinforce and stabilize soil, especially on slopes, by providing tensile strength and preventing soil movement. They can improve the stability of slopes by distributing loads more evenly and reducing the risk of erosion or landslides.

Q: What kind of circumstances need to shop geogrid: In the treatment of bad foundation, or the transformation of the old road, geogrid can quickly improve the bearing capacity of the foundation, speed up the progress of construction; control of soft ground settlement development, shorten the construction period, so that the early use of the road.

Q: Manufacturers to quote the price.: Geogrid is a kind of main geosynthetics, which has unique properties and effects compared with other geosynthetics. Geogrid is often used as reinforcement of reinforced soil structure or composite material. Geogrid is divided into four categories: plastic geogrid, steel plastic geogrid, fiberglass geogrid and fiberglass polyester geogrid.

Q: Classification and application of polyethylene geogrid?: Polyethylene geogrid is divided into four categories: plastic geogrid, steel plastic geogrid, fiberglass geogrid and polyester warp knitted polyester geogrid

Q: How do geogrids improve the performance of bridge abutments?: Geogrids improve the performance of bridge abutments by providing additional stability and reinforcement to the soil. They distribute the loads more evenly, prevent soil erosion, and increase the overall strength of the structure.

Q: What are the design considerations for geogrids in reinforced soil slopes prone to seismic activity?: When designing geogrids for reinforced soil slopes prone to seismic activity, several crucial considerations should be taken into account. First and foremost, the geogrid selected must have sufficient strength and stiffness to withstand the potential ground movements caused by seismic events. The geogrid should be able to distribute the forces generated during an earthquake throughout the reinforced soil mass effectively. Additionally, the spacing and orientation of the geogrid layers are essential. The spacing between the layers should be carefully determined to ensure optimal interaction between the geogrid and the soil, providing stability and preventing excessive deformation. The orientation of the geogrid layers should be aligned with the expected principal stress directions during seismic events to maximize its efficiency. Furthermore, the connection between the geogrid and the facing system is critical. The geogrid should be securely anchored to the facing system to prevent detachment or failure during seismic shaking. The connection details should be designed to accommodate potential displacements and strains induced by seismic activity. Lastly, considering the potential liquefaction of soils during earthquakes, the geogrid should be resistant to degradation caused by soil liquefaction. Special attention should be given to the geogrid material's durability and resistance to chemical and biological degradation to ensure long-term performance. Overall, the design considerations for geogrids in reinforced soil slopes prone to seismic activity revolve around strength, stiffness, spacing, orientation, connection, and resistance to liquefaction, all aimed at providing stability and durability in the face of seismic forces.

Q: How do geogrids improve the stability of embankments?: Geogrids improve the stability of embankments by providing reinforcement and enhancing the load-bearing capacity of the soil. They act as a stabilizing element by distributing the applied forces more evenly, reducing soil movement and potential slope failures. The geogrids interlock with the soil particles, creating a stronger and more stable structure that can withstand higher loads and resist deformation.

Q: Geogrid is mainly used for what?: There are many kinds of geogrid, which can be divided into one-way geogrid, two-way geogrid, steel plastic grille (Mining Grid), fiberglass grille and warp knitted geogrid.

Q: What are the differences between geogrids and geotubes?: Geogrids and geotubes are both geosynthetic materials used in civil engineering and environmental applications, but they have distinct differences. Geogrids are made of high-strength polymers and feature a grid-like structure with open apertures. They are used primarily for soil reinforcement and stabilization, providing tensile strength to prevent soil movement and improve load-bearing capacity. Geogrids are commonly used in retaining walls, embankments, roadways, and landfills. On the other hand, geotubes are large, cylindrical containers made of geotextile fabric, often woven or nonwoven. They are filled with sediment, sludge, or other materials, serving as containment structures for dewatering, shoreline protection, erosion control, or land reclamation. Geotubes are especially useful in coastal areas to protect against wave action and promote beach nourishment. In summary, geogrids are primarily used for soil reinforcement and stabilization, while geotubes are employed for containment and erosion control purposes.

Q: What is the recommended overlap for geogrid installation?: The recommended overlap for geogrid installation typically varies depending on the specific project and geogrid manufacturer's recommendations. However, in most cases, a minimum overlap of 1-2 feet (30-60 centimeters) is recommended to ensure proper connection and load distribution between adjacent geogrid panels.

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