Superior Reinforcement Fabrics for Diverse Industrial Needs
In an era where material performance defines product reliability and end-use experience, reinforcement solutions like laid scrim fabrics have become indispensable across industrial applications. Laid scrims improve strength, stability, and durability of composite materials while remaining lightweight and adaptable.
Laid scrims are engineered reinforcement fabrics made by chemically bonding continuous filament yarns into an open mesh structure, providing reliable performance in demanding environments. The products listed below represent some of the most widely used and technically versatile laid scrim variants available from RFIBER.
Polyester Laid Scrim – Lightweight Yet Robust
Polyester Laid Scrim represents a cost-effective reinforcement fabric designed for diverse industrial uses. It combines high tensile strength with excellent dimensional stability, alkali resistance, and water resistance—making it ideal for composite reinforcement and structural support layers.
Key Attributes :
High tensile strength and tear resistance
Dimensional stability, even under stress
Lightweight and fully bondable with many substrates
Applications :
This scrim is widely used in PVC flooring reinforcement to prevent joint bulging due to expansion and contraction, and in aluminium foil composites to improve production efficiency while enhancing finished product appearance.
Product Details: Polyester Laid Scrim (Multiple Mesh Sizes)
Hot-melt Adhesive PET Laid Scrim – Self-adhesive Versatility
For applications requiring adhesion without secondary bonding agents, Hot-melt Adhesive Coating Binder Polyester PET Laid Scrim offers a unique solution. Its self-adhesive surface combined with high tensile and tear resistance makes it ideal for adhesive tapes, laminates, and applied reinforcement layers where ease of use and performance are both critical.
Key Attributes :
Self-adhesive coating for ease of application
Eco-friendly and recyclable materials options
Strong tear and tensile resistance for stability
Applications:
This variety is especially suited for reinforcing adhesive tapes, packaging layers, and protective films where in-line bonding and strength retention are essential.
Product Details: Hot-melt Adhesive PET Laid Scrim Netting
Fiberglass Laid Scrims – High Strength with Stability
Fiberglass Laid Scrims are a foundational reinforcement product used across many heavy-duty applications. Constructed with continuous glass fiber yarns, these scrims offer superior tensile strength and dimensional consistency, making them essential in environments where structural integrity cannot be compromised.
Key Attributes :
Excellent tensile strength and low elongation
Alkali and water resistance enhance durability
Adaptable to a wide range of laminate processes
Applications:
This scrim type is commonly used in aluminium foil composites, PVC tarpaulins, and non-woven reinforcement applications where strength and dimensional control are paramount.
Product Details: Fiberglass Laid Scrims (Various Mesh Patterns)
Triaxial Laid Scrim – Multi-directional Reinforcement
For applications where reinforcement must resist stress from multiple directions, Triaxial Laid Scrim Netting provides a highly stable mesh structure with three-way fiber distribution. This configuration improves load handling in composite laminates and reinforces materials that experience complex stress patterns in use.
Key Attributes:
Multi-directional fiber distribution enhances overall stability
Low shrinkage improves dimensional control
Compatible with various bonding systems
Applications:
Ideal for high-performance composites including automotive panels, industrial laminates, and reinforced structural films where multi-axis strength is critical.
Product Details: Triaxial Laid Scrim Netting with PVOH Binder
Choosing the Right Laid Scrim for Your Application
RFiber’s laid scrim portfolio spans from basic polyester reinforcement fabrics to advanced multi-directional and adhesive-coated solutions, each tailored to specific performance and processing requirements.
When selecting a scrim, consider:
Load direction and stress patterns
Required tensile and tear strength
Compatibility with bonding or lamination processes
Environmental exposure and durability needs
The right reinforcement mesh can significantly improve end-product performance, production efficiency, and long-term reliability.