Introduction: Next-Generation Geosynthetic Performance
Experience the superior engineering of our non-woven long fiber geotextiles, manufactured using advanced spunbond technology for consistent quality and enhanced performance. Unlike staple fiber alternatives, these geotextiles are formed from continuous filament fibers that are mechanically bonded and heat-calendered, creating a dimensionally stable fabric with exceptional mechanical properties. Designed for critical filtration, separation, protection, and drainage applications, our long fiber geotextiles deliver reliable performance in demanding environmental and civil engineering projects.
Advanced Manufacturing and Technical Excellence
1. Continuous Filament Superiority
Our geotextiles are produced from continuous polyester or polypropylene filaments, not short staple fibers. This manufacturing approach creates a more uniform fabric with consistent pore size distribution and higher tensile strength per unit weight, resulting in predictable, engineered performance.
2. Optimized Pore Structure for Precision Filtration
The controlled production process creates a precisely engineered pore size distribution that provides excellent filtration characteristics. The geotextile effectively retains soil particles while maintaining optimal water flow, preventing soil migration and system clogging in drainage applications.
3. Enhanced Mechanical Properties
The continuous filament structure provides:
Higher Tensile Strength: Superior resistance to installation stresses and long-term loading
Excellent Puncture and Tear Resistance: Withstands aggressive subgrade conditions and heavy aggregate placement
Multi-Directional Strength: Uniform properties in all directions due to random fiber orientation
4. Consistent Thickness and Porosity
The heat-calendering process creates a uniform product with consistent thickness and porosity across entire rolls and between production batches. This consistency ensures predictable flow rates and filtration performance throughout your project.
Performance Advantages in Demanding Applications
1. Superior Filtration and Drainage Performance
The three-dimensional matrix of interconnected pores provides:
High Permittivity: Efficient cross-plane water flow
Excellent Transmissivity: Effective in-plane water transport
Clogging Resistance: Maintains performance over decades of service
2. Exceptional Protection Capabilities
The combination of thickness, puncture resistance, and tensile strength makes it an ideal protective layer for geomembranes and other sensitive lining systems. It effectively distributes point loads and prevents damage from sharp objects and irregular subgrades.
3. Durability in Challenging Environments
UV Resistance: Contains carbon black or other UV stabilizers for extended exposed performance
Chemical Resistance: Resists degradation from soil chemicals and leachates
Biological Resistance: Immune to microbial attack and rotting
4. Installation Advantages
The continuous filament construction provides:
Better Handleability: Reduced tendency to tear during installation
Edge Stability: Minimal fraying during cutting and placement
Consistent Unrolling: Smooth deployment without bunching or twisting
Application-Specific Solutions
Landfill Engineering: Leachate collection systems, landfill cap protection, drainage layers
Transportation Infrastructure: Separation and stabilization beneath roads, railways, and airfields
Environmental Protection: Pond and reservoir liners protection, erosion control systems
Drainage Systems: Wrap for perforated pipes, French drains, and trench drains
Coastal and Waterway Protection: Filtration layer beneath revetments and riprap
Civil Engineering Projects: Foundation drainage, retaining wall drainage, green roof systems
Technical Specifications and Customization
Materials: Primary polypropylene or polyester continuous filaments
Weights Available: 3.5 oz/yd² to 25 oz/yd² (120 g/m² to 850 g/m²)
Roll Dimensions: Standard widths of 2.0m to 6.5m (6.5' to 21.3'), custom widths available
Key Properties: Tensile strength, elongation, puncture resistance, permittivity, and apparent opening size can be tailored to specific project requirements
All products are manufactured to meet international standards including ASTM, ISO, and GRI specifications. Comprehensive quality control ensures consistent performance across all production batches.
Sustainability and Value Engineering
1. Environmental Benefits
Enables use of local, marginal soils reducing transport requirements
Extends service life of infrastructure projects
Reduces aggregate requirements in construction projects
Recyclable material options available
2. Economic Advantages
Reduced installation time and labor costs
Lower long-term maintenance requirements
Extended project service life
Cost-effective alternative to traditional construction methods
Why Choose Our Long Fiber Geotextile?
Proven Performance: Documented success in critical infrastructure projects worldwide
Technical Support: Engineering assistance for product selection and design considerations
Quality Assurance: Rigorous manufacturing controls and third-party testing verification
Custom Solutions: Tailored products for specific project requirements
Global Standards Compliance: Meets or exceeds all relevant international specifications
Expert Support and Resources
Our technical team provides:
Application-specific product recommendations
Design methodology assistance
Installation guidance and best practices
Custom testing for unique project requirements
We offer comprehensive technical data sheets, sample materials for evaluation, and project-specific technical support to ensure optimal product selection and performance.
Request Product Information or Technical Consultation
Contact our engineering team for detailed technical specifications, performance data, and project-specific recommendations. Let us help you select the optimal geotextile solution for your specific application requirements.
Engineered for Performance. Built for Longevity.
