Geogrids Que Son - Bitumen Coated Fiberglass Geogrid (Asphalt Reinforcement)

Geogrids Que Son - Bitumen Coated Fiberglass Geogrid (Asphalt Reinforcement)

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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 request
Delivery Detail:	about 7days

Specifications

Bitumen coated fiberglass geogrid
1.Tensile strength: 15~100KN/M
2.Color:black and etc.
3.Material:PP/PE
4.Long service

Bitumen coated fiberglass 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: How do geogrids improve the performance of geotextile containers?: Geogrids improve the performance of geotextile containers by providing additional stability, reinforcement, and strength to the containment system. They help distribute loads more evenly, prevent internal erosion, and increase the overall integrity of the structure.

Q: What kind of projects are used to detect the geogrid: Tensile and elongation

Q: Geogrid width mean?: Because the geogrid is packed, generally (1--6) * (50 or 100 m)

Q: How do geogrids help in reducing soil settlement?: Geogrids help in reducing soil settlement by providing reinforcement and stability to the soil structure. They restrain the lateral movement and spread the load more evenly, preventing excessive settlement.

Q: Are geogrids resistant to biological degradation?: Yes, geogrids are generally resistant to biological degradation. They are typically made from synthetic materials such as polypropylene or polyester, which are not easily biodegradable. This makes geogrids a durable and long-lasting solution for reinforcement and stabilization applications where exposure to biological factors is a concern.

Q: What are the differences between geogrids and geosynthetic clay liners?: Geogrids and geosynthetic clay liners (GCLs) are both types of geosynthetics used in civil engineering, but they differ in terms of composition, function, and application. Geogrids are typically made of high-strength polymer materials, such as polyester or polypropylene, and are designed to provide reinforcement and stabilization to soil or aggregate layers. They have a grid-like structure with open apertures that allow for soil interlocking, enhancing the load-bearing capacity of the soil. Geogrids are commonly used in applications such as retaining walls, road construction, and erosion control. On the other hand, geosynthetic clay liners (GCLs) consist of a layer of natural sodium bentonite clay sandwiched between two geotextile layers. The clay layer acts as a hydraulic barrier, providing excellent seepage control and preventing the migration of liquids or gases. GCLs are often employed in environmental containment systems, such as landfill liners or caps, and in other applications that require effective containment of fluids. In summary, while geogrids primarily focus on reinforcement and stabilization of soil, geosynthetic clay liners specialize in seepage control and containment. Their differing compositions and functions make them suitable for distinct engineering purposes.

Q: I would like to ask the geotechnical engineering of highway engineering, geogrid raw materials for the conventional test items, parameters?: The conventional detection of geogrid includes: appearance, physical properties (including: Determination of mass per unit area, amplitude measurement, mesh size measurement)

Q: Can geogrids be used in reinforcement of coastal structures?: Yes, geogrids can be used in the reinforcement of coastal structures. Geogrids are commonly used in coastal engineering to enhance the stability and strength of structures such as seawalls, revetments, and breakwaters. They provide additional reinforcement by improving soil cohesion and preventing erosion, thus increasing the durability and resilience of coastal structures against wave action and other environmental forces.

Q: Are geogrids suitable for railway track stabilization?: Yes, geogrids are suitable for railway track stabilization. Geogrids are commonly used in railway construction and maintenance projects to improve soil stability, increase load-bearing capacity, and prevent track deformations. They provide reinforcement and confinement to the ballast layer, enhancing its strength and preventing lateral movement of the track. Geogrids also help distribute loads more evenly, reducing track settlement and improving overall track performance and longevity.

Q: What are the factors to consider when selecting geogrids for a project?: When selecting geogrids for a project, it is important to consider factors such as the site conditions, load requirements, and the desired application. The site conditions, including soil type, slope stability, and groundwater levels, will determine the type and strength of geogrid needed. Load requirements, such as traffic or equipment loads, will impact the geogrid's tensile strength and durability. Additionally, considering the desired application, such as soil stabilization, retaining walls, or erosion control, will help determine the appropriate geogrid material and design.

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