• Geogrids in India - Biaxial Plastics Geogrid BX1200 BX1100 System 1
  • Geogrids in India - Biaxial Plastics Geogrid BX1200 BX1100 System 2
  • Geogrids in India - Biaxial Plastics Geogrid BX1200 BX1100 System 3
  • Geogrids in India - Biaxial Plastics Geogrid BX1200 BX1100 System 4
Geogrids in India - Biaxial Plastics Geogrid BX1200 BX1100

Geogrids in India - Biaxial Plastics Geogrid BX1200 BX1100

Ref Price:
get latest price
Loading Port:
Qingdao
Payment Terms:
TT OR LC
Min Order Qty:
5000 m
Supply Capability:
50000 m/month

Add to My Favorites

Follow us:


OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

        Quick Details

  • Material: Plastic

  • Roll length(m): 50/75/100

  • Roll width(m): 2/3.9/3.95/5/5.9/6

  • Mesh size(mm): 35-40

  • Certificate: CE,SGI,ISO

  • Mass weight: 180-485g/m2

Packaging & Delivery

Packaging Details:nake and bound with iron wire
Delivery Detail:within 15 days after the cotract is effective

Introduction

The outlook of the biaxial geogrid is network structure like a square. It uses polyester as its raw material and made of high molecular polymer through extrusion, formed and punched before longitudinally and laterally stretched. This kind of material has high tensile longitudinally and horizontally, which can be used to reinforce the basement.

Function

1. It can be applied in all kinds of roads, railways, airports to enhance the roadbed;

2. It can be applied in a large car park and terminal freight yard, etc. to strenghten the foundations of a permanent load;

3. It can be applied in rail, road slope's protection;

4. It can be applied to enhance the culvert;

5. It can be applied as a secondary enhancement after the uniaxial Geogrid soil enhancement, further enhance the soil, prevent soil erosion;

6. It can be applied in mining, tunnel reinforcement.

 

Specifications and performance table

 

 

 

Property

Test Method

TGSG

15-15

TGSG

20-20

TGSG

30-30

TGSG

40-40

TGSG

50-50

TGSG

60-60

Ultimate tensile strength(1) (kN/m)

MD

 

 

 

 

 

 

ASTM D 6637

15

20

30

40

50

60

CD

15

20

30

40

50

60

Elongation at maximum load (%)

MD

16

CD

13

Tensile strength at 2 % elongation (kN/m)

MD

5

7.5

10.5

14

18

27.5

CD

5

7.5

10.5

14

18

27.5

Tensile strength at 5 % elongation (kN/m)

MD

7

14

21

28

35

48

CD

7

14

21

28

35

48

Minimum Carbon Black

%

ASTM D 4218

2

 

 

 



Q: Are geogrids resistant to hydrostatic pressure?
Yes, geogrids are generally resistant to hydrostatic pressure.
Q: Bi directional plastic geogrid is suitable for engineering
Applicable to all kinds of embankment and roadbed reinforcement
Q: What are the factors to consider when designing with geogrids for reinforced soil walls?
When designing with geogrids for reinforced soil walls, there are several important factors to consider. Firstly, the type and strength of the geogrid material is crucial. The geogrid should have sufficient tensile strength and stiffness to effectively reinforce the soil and withstand the loads and stresses imposed on the wall. Secondly, the connection between the geogrid and the soil is critical. Proper anchoring and connection methods must be employed to ensure the geogrid remains securely in place and effectively distributes the loads throughout the reinforced soil structure. Additionally, the design should consider the wall height and slope angle, as these factors impact the stability and performance of the reinforced soil wall. The geogrid spacing and orientation must be determined based on these parameters to achieve the desired stability and load-bearing capacity. Other factors such as soil properties, water drainage, and environmental conditions should also be taken into account to ensure the long-term performance and durability of the reinforced soil wall. Overall, a comprehensive understanding of these factors is essential for successful design and construction with geogrids in reinforced soil walls.
Q: How do geogrids enhance soil reinforcement?
Geogrids enhance soil reinforcement by providing additional tensile strength and stability to the soil. They are placed within the soil layers and act as a reinforcement material, distributing the forces and reducing the potential for soil movement. This helps to increase the overall strength and performance of the soil, making it more resistant to erosion, deformation, and other types of failures.
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 are the benefits of using geogrids in construction projects?
Geogrids offer several benefits in construction projects. Firstly, they provide reinforcement to soil, preventing its movement and improving stability. Secondly, they enhance the load-bearing capacity of the soil, allowing for the construction of structures on weak or unstable ground. Additionally, geogrids help reduce construction costs by eliminating the need for extensive excavation and the use of traditional construction materials. They also facilitate faster construction by reducing the time required for ground preparation. Overall, geogrids enhance the longevity and durability of construction projects while providing cost and time savings.
Q: What is the overlap length of the two-way geogrid? What is the overlap length of geotextiles?
Steel nail. Geotextile lap length is 50cm to 1m
Q: Geocell of earthwork grid construction method
4, permafrost subgradeIn the construction of embankment in permafrost regions, should reach the minimum height of fill, to prevent the occurrence of frost or freezing layer caused by upper limit decreased, resulting in the occurrence of excessive settlement of embankment. The whole side reinforcing effect of geocell specific and effective implementation, to the maximum extent to ensure that the minimum height of fill in some special area, and the high strength and stiffness of soil.5, loess collapsibility roadbed treatmentFor the highway and the highway through the collapsible loess and loess compression lots better, or high embankment foundation and embankment load is lower than the vehicle to allow the weight bearing pressure, should also be in accordance with the requirements of the subgrade bearing capacity, then the geocell superiority will undoubtedly show the.6, saline soil, expansive soilThe saline soil, expansive soil and construction of the highway, a highway, the road shoulder and slope reinforcement measures are used, the reinforcement effect of geocell facade is a reinforcement material in all the best, and it has excellent corrosion resistance, can fully meet in saline soil, expansive soil has higher requirements for highway.
Q: How do geogrids improve the performance of geotextile tubes?
Geogrids improve the performance of geotextile tubes by providing additional structural support and stability. They enhance the tensile strength of the geotextile tubes, preventing deformation and maintaining their shape under pressure. Geogrids also increase the overall load-bearing capacity of the geotextile tubes, making them more effective in erosion control, shoreline protection, and soil stabilization applications.
Q: What are the properties and characteristics of geogrids?
Geogrids are synthetic materials with high tensile strength, used in civil engineering and construction projects. They are typically made from polymers such as polyester or polypropylene and have a grid-like structure. The properties and characteristics of geogrids include: 1. Tensile Strength: Geogrids possess high tensile strength, allowing them to withstand heavy loads and distribute stress efficiently. This property makes them suitable for applications such as soil stabilization and reinforcement. 2. Aperture Size: Geogrids have a grid-like structure with different aperture sizes, which can vary based on the intended use. The aperture size determines the amount of soil interlock and confinement provided by the geogrid. 3. Flexibility: Geogrids exhibit flexibility, enabling them to conform to the shape of the terrain or structure they are applied to. This flexibility allows for easier installation and adaptability to different project requirements. 4. Durability: Geogrids are designed to be highly durable and resistant to environmental conditions such as ultraviolet (UV) radiation, chemical exposure, and biological degradation. This durability ensures the long-term performance and lifespan of geogrids in various applications. 5. Installation Ease: Geogrids are generally lightweight and easy to handle, facilitating their installation. They can be rolled out or placed directly onto the ground, minimizing the time and effort required for construction. 6. Soil Interaction: Geogrids enhance the interaction between soil particles, increasing their shear resistance and improving overall stability. This property is especially beneficial in applications like retaining walls, slopes, and roadways. 7. Drainage Capability: Some geogrids have a porous structure that allows for water drainage, preventing the buildup of hydrostatic pressure and reducing the risk of soil erosion. Overall, geogrids offer a range of beneficial properties and characteristics that make them versatile and effective in various civil engineering and construction applications.

Send your message to us

This is not what you are looking for? Post Buying Request

Similar products

Hot products


Hot Searches

Related keywords