Nowofill Nonwoven Geo Fabric by GINNI SPECTRA PRIVATE LIMITED is an advanced geotextile material crafted using polypropylene or polyester fibers through needle-punched technology. This nonwoven geofabric is engineered to provide superior filtration, separation, and drainage while maintaining exceptional tensile strength and puncture resistance. Its unique structure allows water to permeate efficiently, while effectively retaining soil particles, thus preventing erosion and enhancing ground stability. Ideal for diverse civil engineering applications, including road and highway construction, railways, drainage systems, landfills, embankments, riverbank stabilization, and landscaping projects, this geo fabric ensures prolonged infrastructure durability and cost-effectiveness. With a minimum order quantity of just 1 meter, it presents a scalable solution for construction professionals seeking high-performance and reliable geotextile materials.
Key Features
| Features | Description |
|---|---|
| Material Composition | Polypropylene or Polyester fibers |
| Manufacturing Technology | Needle-punched |
| Primary Functions | Filtration, Separation, Drainage, Erosion Control |
| Permeability | Excellent water permeability allowing free water flow |
| Tensile Strength | High tensile strength for durability under stress |
| Puncture Resistance | Resistant to punctures and mechanical damage |
| Applications | Road construction, Drainage systems, Landfills, Embankments, Railways |
| Durability | Suitable for harsh environmental conditions with long service life |
| MOQ | 1 meter |
| Attributes | Description |
|---|---|
| Product Type | Nonwoven Geotextile Fabric |
| Fiber Type | Polypropylene or Polyester |
| Manufacturing Process | Needle-punched technology |
| Width Availability | Customized, typically available in standard rolls |
| Length | As per buyer requirement, MOQ 1 meter |
| Usage | Civil engineering, infrastructure, erosion control |
| Permeability | Allows water passage while retaining soil particles |
| Tensile Strength | High — typically conforms to industry standards |
| Environmental Resistance | Resistant to chemical, biological, and physical degradation |
*Disclaimer: The above description has been AI-generated and has not been audited or verified for accuracy. It is recommended to verify product details independently before making any purchasing decisions.
The fabric is manufactured using either polypropylene or polyester fibers bonded through needle-punched technology.
It allows water to pass through while retaining soil particles, preventing soil erosion and improving ground stability.
Yes, it is specifically designed to provide excellent permeability and drainage, making it ideal for drainage systems.
It is widely used in road construction, railways, landfills, embankments, riverbank protection, and general civil engineering projects.
Yes, it offers high tensile strength and puncture resistance suitable for harsh environmental conditions.
Country Of Origin: India
Nowofill Nonwoven geofabric is a versatile geotextile material made from polypropylene or polyester fibers bonded through needle-punched technology. It offers excellent permeability, filtration, separation, and drainage properties while maintaining high tensile strength and durability. Nonwoven geofabric allows water to pass through while retaining soil particles, preventing erosion and improving ground stability. It is widely used in road construction, drainage systems, landfills, embankments, railways, and civil engineering projects, ensuring long service life and cost-effective infrastructure performance.
Nowofill Nonwoven geofabric is a high-performance geotextile material manufactured from polypropylene or polyester fibers using needle-punched technology. It is designed to provide effective filtration, separation, drainage, and protection in civil engineering applications. The fabric allows water to pass freely while preventing soil migration, helping to control erosion and improve soil stability. Nonwoven geofabric offers excellent tensile strength, puncture resistance, and durability under harsh environmental conditions. It is commonly used in road and highway construction, railways, drainage systems, landfills, embankments, riverbank protection, and landscaping projects, ensuring long-lasting and cost-effective infrastructure solutions.
