Basic Info.
Model NO.
Geotextile01
Color
White
Certification
CE
Feature
Transportation Project
Usage
Tear Resistance
Material
Stable Fiber Geosynthetic
Kind
Non-woven
Name
Geotextile
Colour
Customized Colors
Useage
Dam Protection & Soil Reinforcement
Thickness
0.3~4.0
Length
50-200m /Roll or as Requested
Surface Treatment
Needle Punctured
Standard
ASTM Gri-GM13
Yield Strength
11~44
Function
Soil Reinforment
Base Material
Stable Fiber Geosynthetic
Transport Package
Packing Roll
Specification
Accept customerized
Trademark
xcnm
Origin
Anhui China
Production Capacity
500000000
Packaging & Delivery
Package Size
20.00cm * 20.00cm * 5.00cm
Package Gross Weight
0.200kg
Lead Time
5 days (1 - 50000 Square Meters)
To be negotiated ( > 50000 Square Meters)
To be negotiated ( > 50000 Square Meters)
Product Description
Ma 'anshan Xincheng Nano New Material Technology Co., Ltd. is located in Ma 'anshan Economic and Technological Development Zone, Dangtu County Economic Development Zone Science and Technology Innovation Park, a national civilized city with beautiful scenery and beautiful environment.
At present, the company's products have developed in a comprehensive and diversified direction. There are geotextile, geomembrane, composite geomembrane, composite geotextile, geoglery, geoglage, geoglage, geoglage mat, plastic blind ditch three-dimensional geoglage mat and other multi-element, multi-level geosynthetic materials series products.
POLYPROPYLENE SHORT FIBER NEEDLE PUNCHED GEOTEXTILE
- Product Introduction:
Product specifications: PP100~PP1200, width 2m~6m., length according to user requirements.
- Features:
- Applications:
| Specification | unit | 100g | 200g | 300g | 400g | 500g | 600g | 700g | ||
| unit weight variation | % | ± 6 | ||||||||
| Grab strength | MD | N | ≥450 | ≥900 | ≥1200 | ≥1600 | ≥2000 | ≥2400 | ≥3200 | |
| TD | ≥450 | ≥900 | ≥1200 | ≥1600 | ≥2000 | ≥2400 | ≥3200 | |||
Trapezoidal tear strength | MD | N | ≥170 | ≥350 | ≥420 | ≥500 | ≥580 | ≥660 | ≥900 | |
| TD | ||||||||||
| ≥170 | ≥350 | ≥420 | ≥500 | ≥580 | ≥660 | ≥900 | ||||
| CBR mullen brust strength | kN | ≥1.3 | ≥2.5 | ≥3.5 | ≥4.3 | ≥5.5 | ≥6.5 | ≥9.0 | ||
| breaking strength | MD | kN/m | ≥5.0 | ≥11 | ≥16 | ≥22 | ≥28 | ≥35 | ≥48 | |
| TD | ≥5.0 | ≥11 | ≥16 | ≥22 | ≥28 | ≥35 | ≥48 | |||
| Elongation at break | MD | % | 40~70 | 50~80 | 70±20 | |||||
| TD | ||||||||||
| puncture resistance | N | ≥210 | ≥430 | ≥650 | ≥900 | ≥1200 | ≥1500 | ≥2500 | ||
- Polypropylene needle-punched non-woven geotextile is mainly used for the sliding layer between CRTS slab ballastless track and beam surface of passenger dedicated railway, and the isolation layer between CRTS slab ballastless track and friction. It can also be widely used Hydropower, highways, railways, ports, airports, sports venues, tunnels, beaches, reclamation, environmental protection and other fields play the role of isolation, filtration, drainage, reinforcement, protection, etc. Technical Data
How to install geotextile fabric
Let us show you how easy the installation is and provide a few useful tips along the way. In our example,Step 1 - Prep the road surface
First, you will need to excavate the roadway to the desired elevation. Then fully compact your subgrade, making sure you have removed all air and tightened the soil completely.Step 2 - Unroll the reinforcement geotextile fabric
Roll the geotextile fabric on the compacted subgrade, making sure it's free of wrinkles and folds. Overlap your fabric as directed by the engineer. Cherokee can pre-sew the fabric for you if a stitch seam is required. Contact your Cherokee representative to get pricing on factory seamed rolls in a wider widths.
Step 3 - Sewing the geotextile fabric
This job required the fabric to be stitched on the job site. The fabric needs to be seamed with a dual thread lock stitch to prevent it from unthreading. We have equipment available for purchase or rental to do the stitching on the job. At the engineers discretion you can choose a prayer seam, j-seam, or butterfly seam. In this example we will be using a j-seam. We recommend doing two stitches on each seam to prevent any failure during installation.
Step 4 - Apply Aggregate
Place your aggregate to the specified thickness, ensuring that no equipment drives directly on the engineered fill. Make sure the fill has reached full compaction before the final step.
Step 5 - Lay Asphalt
Now that you have placed your subbase you are ready for your pavement layer (or layers depending on the project type).
Project case for reference:
Municipal environmental, anti seepage in landscaping and municipal, metallurgy area, anti-corrosion, transportation infrastructure, agriculture reservoir waterproofing project, fisheries aquaculture. Other facilities waterproofing, anti erosion, anti seepage, reinforcement and seepage water collecting, preparation of temporary tank and special structure.
Reinforced Concrete: May require regular maintenance due to cracks, corrosion and other common problems in concrete structures.
Landfill Waterproofing: Guarantees watertightness in sanitary and industrial landfills.
agriculture reservoir waterproofing project fisheries aquaculture.
Project cases in CHINA
Project cases in Vietam
Project cases in Japen
Project case in Russia
Project case in UK
Project case in Tanzania
Project case in USA
Geotextile function
1.Separation
The separation function of geotextile is majorly used in the construction of roads. Geotextile prevents the intermixing of two adjacent soils. For example, by separating fine subgrade soil from the aggregates of the base course, the geotextile preserves the drainage and the strength characteristics of the aggregate material.
Some of the applicable areas are:
- Between subgrade and stone base in unpaved and paved roads and airfields.
- Between subgrade in railroads.
- Between landfills and stone base courses.
- Between geomembranes and sand drainage layers.
The equilibrium of geotextile-to-soil system that allows for adequate liquid flow with limited soil loss across the plane of the geotextile.
Porosity and permeability are the major properties of geotextiles which involve infiltration action.
A common application illustrating the filtration function is the use of a geotextile in a pavement edge drain, as shown in the figure above.
3.Reinforcement
Introduction of geotextile in the soil increases the tensile strength of the soil the same amount steel does in concrete. The strength gain in soil due to the introduction of geotextile is by the following 3 mechanisms :
- Lateral restraint through interfacial friction between geotextile and soil/aggregate.
- Forcing the potential bearing surface failure plane to develop an alternate higher shear strength surface.
- Membrane type of support of the wheel loads.
A layer of non-woven geotextile is impregnated in between existing and new asphalt layers. The geotextile absorbs asphalt to become a waterproofing membrane minimising vertical flow of water into the pavement structure.
Weight and Environmental Impact:
Geotextile: They are light, minimizing the load on the existing structure and reducing the environmental impact.
Reinforced Concrete: Concrete structures tend to be heavier, requiring a more robust base and generating greater environmental impact during production.
Maintenance and Durability:
Geotextile: Require less maintenance over time as they are less prone to cracking and deterioration.
Reinforced Concrete: May require regular maintenance due to cracks, corrosion and other common problems in concrete structures.
Installation time:
Geotextile: Quick installation allows you to complete projects faster.
Reinforced Concrete: Concrete curing time can prolong project completion, impacting deadlines.
Geotextile Packing and Delivery
1. The products are usually tied with packing tape.The packaging size and container capacity of the product are different from the product specifications
2. Container transportation, according to your project request.
