Egrid Biaxial PP Geogrids - Raw Materials Plastic Geogrid

Egrid Biaxial PP Geogrids - Raw Materials Plastic Geogrid

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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: What is the difference between woven and non-woven geogrids?: Woven geogrids are made by weaving individual yarns together, creating a grid-like structure. Non-woven geogrids, on the other hand, are manufactured by bonding or interlocking fibers together through mechanical, thermal, or chemical processes. The key difference is in the manufacturing process, which results in woven geogrids being stronger and more rigid, while non-woven geogrids tend to be more flexible and have higher tensile strength. Additionally, woven geogrids are generally used in applications that require high load-bearing capacity, while non-woven geogrids are often used for soil stabilization and separation purposes.

Q: The tensile strength of a steel bar is about the number of cattle per square millimeter per square millimeter. The tensile strength of Gsa's cattle per meter, understand the carrying capacity of tensile Gsa every one meter in width is the number of cattle (considering Gsa gap), or single Gsa every one meter in length tensile capacity is the number of cattle (the size effect of Gsa does not consider the length direction). Please advise!: The tensile strength of geogrid is most units per meter number kn, because the steel mesh size is uncertain, unlike the types of glass fiber grid less, as long as know what type of glass fiber yarn will be able to know what is the tension

Q: How are geogrids connected to the surrounding soil?: Geogrids are connected to the surrounding soil through a process called interlocking. The geogrids have openings or apertures that allow the soil particles to pass through. As the soil is compacted and fills these apertures, it creates a mechanical bond between the geogrid and the soil. This connection enhances the stability and load-bearing capacity of the soil, preventing lateral movement and reinforcing the overall structure.

Q: How do geogrids improve the performance of mechanically stabilized slopes in expansive soils?: Geogrids improve the performance of mechanically stabilized slopes in expansive soils by providing reinforcement and stability to the soil mass. They prevent excessive movement and deformation of the soil, reducing the risk of slope failure and erosion. The geogrids distribute the load applied on the slope more evenly, enhancing its overall strength and preventing the development of cracks and settlements. Additionally, geogrids can control the lateral spreading of expansive soils, minimizing the potential for slope instability.

Q: Can geogrids be used in temporary retaining structures?: Yes, geogrids can be used in temporary retaining structures. Geogrids are commonly used in construction projects to reinforce soil and provide stability to retaining walls and structures. They are designed to withstand high tensile forces and can be easily installed and removed, making them suitable for temporary applications.

Q: What are the cost considerations for using geogrids in construction projects?: Some cost considerations for using geogrids in construction projects include the initial cost of purchasing and installing the geogrids, the potential cost savings in reducing the amount of traditional materials needed, the cost of maintenance and repair over time, and the overall long-term cost-effectiveness compared to alternative construction methods.

Q: What are the testing methods for geogrids?: The testing methods for geogrids typically involve evaluating their tensile strength, aperture size, junction strength, and creep characteristics through laboratory tests such as wide-width tensile strength test, puncture test, junction efficiency test, and long-term creep test. These methods help determine the geogrids' performance and suitability for various soil stabilization and reinforcement applications.

Q: Can geogrids be used in shoreline protection projects?: Yes, geogrids can be used in shoreline protection projects. Geogrids are commonly used to reinforce and stabilize soil in various construction projects, including shoreline protection. They help to prevent soil erosion and provide structural support, making them suitable for use in shoreline protection projects to enhance the stability and resilience of the shoreline.

Q: Refers to the size of the geogrid mesh holeSpecific attention is not clear, the banner of Chang Chang official CafeThere's something you're looking forGrille generally by the vertical and horizontal staggered from the simple meaning of space can also be understood that the size of the lattice gap.: Refers to the size of the geogrid mesh holeSpecific attention is not clear, the banner of Chang Chang official CafeThere's something you're looking forGrille generally by the vertical and horizontal staggered from the simple meaning of space can also be understood that the size of the lattice gap.

Q: Building houses and roads require pipes and geotextile, grille?: One way tensile plastic geogrid: Polyethylene one-way tensile geogrid is made of high density polyethylene (HDPE) as raw material, through plasticizing extrusion plate, punching, heating, stretching

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