Egrid Biaxial PP Geogrids - Raw Materials Plastic Geogrid

Egrid Biaxial PP Geogrids - Raw Materials Plastic Geogrid

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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: Plastic-Steel,HDPE/PPModel Number: TGDG
color: black etc.
length: 50-100m(or at request)
sample: available

Packaging & Delivery

Packaging Details:	Standard exporting package , or as your special request .
Delivery Detail:	within 10 days after the advanced payment 30% T/T .

Specifications

Raw materials plastic pet
1.Tensile strength: 15~100KN/M
2.Color:black
3.Material:PP/PE
4.Certificate:CE/ISO9001,14001

Raw materials plastic pet :

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

Item	TGSG15-15	TGSG20-20	TGSG25-25	TGSG30-30	TGSG40-40
Longitudinal Tensile Strength,kN/m	15	20	25	30	40
Transverse Tensile Strength,kN/m	15	20	25	30	40
Longitudinal Yield Elongation,%	15
TransverseYield Elongation,%	13
Longitudinal Yield Strength at 2% Elongation,kN/m	5	7	9	11	14
Transverse Yield Strength at 2% Elongation,kN/m	5	7	9	11	14
Longitudinal Yield Strength at 5% Elongation,kN/m	7	14	17	21	30
Transverse Yield Strength at 5% Elongation,kN/m	7	14	17	21	30
Product Length/roll,m	50				40
Product width ,m	3.9/3.95/4

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 reinforcement of bridge abutments on soft clays?: Yes, geogrids can be used in the reinforcement of bridge abutments on soft clays. Geogrids are commonly used in geotechnical engineering as a soil reinforcement material. When placed in soft clay soils, they can improve the stability and strength of the soil, providing additional support to bridge abutments and preventing excessive settlement or failure. By distributing the load more evenly and increasing the bearing capacity of the soil, geogrids can effectively reinforce bridge abutments on soft clays.

Q: Who knows how much the staggered distance of the lap joint of the geogrid is?: The staggered distance of the lap joint shall not be less than 300 mm. Specific specification (geotextile lap laying)

Q: What are the design considerations for geogrid-reinforced structures?: Some design considerations for geogrid-reinforced structures include the selection of appropriate geogrid materials, determining the required strength and stiffness of the geogrid, analyzing the soil conditions and determining the appropriate placement of the geogrid within the structure, considering the compatibility of the geogrid with the surrounding materials, ensuring proper installation and construction techniques, and considering any potential long-term effects such as creep or degradation of the geogrid material.

Q: What are the long-term maintenance requirements for geogrid-reinforced structures?: The long-term maintenance requirements for geogrid-reinforced structures typically involve periodic inspections to ensure the integrity of the structure and the geogrid. These inspections may include visual assessments, measurements, and testing to detect any signs of damage, settlement, or deterioration. Additionally, regular cleaning and removal of debris from the structure is necessary to prevent blockages or potential damage. Overall, proper maintenance and timely repairs are essential for the longevity and performance of geogrid-reinforced structures.

Q: Are geogrids resistant to temperature variations?: Yes, geogrids are generally resistant to temperature variations. They are specifically designed to withstand a wide range of temperatures, from extreme cold to high heat, without losing their structural integrity or performance. This makes geogrids a reliable and durable solution for various engineering applications where temperature fluctuations are expected.

Q: What are the factors that affect the cost-effectiveness of geogrid-reinforced structures?: There are several factors that can affect the cost-effectiveness of geogrid-reinforced structures. Firstly, the type and quality of geogrid used can significantly impact the overall cost. Higher quality geogrids may be more expensive but can provide better reinforcement, leading to longer-lasting and more cost-effective structures. Additionally, the design and engineering of the structure play a crucial role. Properly designed structures that consider factors such as soil conditions, loading requirements, and anticipated lifespan can ensure optimal performance and cost-effectiveness. The construction process and techniques employed also influence the cost-effectiveness. Efficient construction methods, skilled labor, and effective project management can minimize costs and maximize the durability and longevity of the geogrid-reinforced structure. Lastly, the maintenance and monitoring of the structure are essential. Regular inspections and timely repairs, if needed, can prevent costly damages and extend the lifespan of the structure, ultimately enhancing its cost-effectiveness.

Q: How do geogrids improve the performance of mechanically stabilized slopes during seismic events?: Geogrids improve the performance of mechanically stabilized slopes during seismic events by providing reinforcement and preventing soil movement. These high-strength geosynthetic materials are installed within the soil mass and act as a stabilizing mechanism. During seismic events, geogrids distribute the forces more evenly, reducing the strain on the soil and minimizing the risk of slope failure. This reinforcement helps maintain the stability and integrity of the slope, enhancing its resistance to seismic forces.

Q: Geogrid nailed pictures and size: U studs for the geogrid? You are ready to do the sale of finished products, or on the site directly on the grid?

Q: Are geogrids suitable for reinforcing railway subgrades?: Yes, geogrids are suitable for reinforcing railway subgrades. Geogrids provide effective soil stabilization, improve load-bearing capacity, and reduce settlement, making them an ideal solution for reinforcing railway subgrades and ensuring long-term performance and stability of the tracks.

Q: What are the typical properties and characteristics of geogrids?: Geogrids are typically made of high-strength polymers or metals and are characterized by their grid-like structure. They possess high tensile strength, low elongation, and excellent resistance to chemical and biological degradation. Geogrids are designed to provide reinforcement and stabilization to soils, preventing the lateral movement of particles and improving the overall load-bearing capacity of the ground. They are also known for their ability to distribute loads, reduce settlement, and enhance the performance of civil engineering projects such as retaining walls, embankments, and roadways.

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