PTFE Mesh Conveyor Belt for Clothing Industry – Heat Resistant, Non-stick, Open Mesh Fabric Belt
Anligu’s PTFE mesh conveyor belts are widely used in the clothing and garment industry for fusing, drying, lamination, and heat pressing processes. Constructed with fiberglass or Kevlar® fabric and coated with PTFE (Teflon®), these belts provide excellent heat resistance, non-stick performance, and precise tracking, ensuring efficient operation in garment manufacturing lines.
•Fabric drying tunnels
•Heat pressing of nonwoven materials
•Lamination of interlining fabrics
•Shoe and insole manufacturing
•Hot air bonding of technical textiles
•Sublimation and screen printing drying
•Garment fusing machines (flatbed or continuous fusing press)
PTFE Mesh Belt for Clothing Industry– High-Performance Conveyor Solution
Engineered for Extreme Conditions: Non-Stick, Heat-Resistant, and Chemically Inert.
Our PTFE (Polytetrafluoroethylene) Mesh Belts are precision-engineered for superior performance in high-temperature, non-stick conveying applications. Woven from fiberglass,
Glass or Kevlar mesh fabric, and coated with pure PTFE coating, these belts deliver unmatched thermal stability, chemical resistance, and mechanical durability.
Key Properties
Temperature Range: Continuous operation from -71°C to +260°C (short-term peaks to 300°C).
Non-Stick Surface: Effortless release of adhesives, resins, powders, and food products; easy to clean.
Chemical Resistance: Impervious to acids, solvents, oils, and corrosive agents.
Dimensional Stability: Minimal elongation (<5% warp, <7% weft) under tension.
Custom Sizes: Widths up to 4,000mm; mesh openings from 1x1mm to 10x10mm.
Lightweight & Cost-Effective: Superior to metal belts—lower maintenance and replacement costs.
Core Features
1. Advanced Construction
Base Fabric: Fiberglass, aramid, or stainless steel for strength and flexibility.
Airflow Efficiency: Up to 85% open area for rapid heat transfer.
Tensile Strength: Up to 300 N/cm (warp) and 150 N/cm (weft).
Abrasion Resistance: Longevity 3–5× longer than conventional belts.
3. Specialized Options
Food-Grade: FDA compliant for direct food contact.
ESD-Safe: Conductive coatings for electronics and semiconductor applications.
Flame Retardant: certification available.
PTFE Mesh Conveyor Belt 6013
Item NO.
6013
Color颜色
beige
基布克重 Base Fabric Weight (g/m²)±3%
306
成品克重 Total Weight (g/m²)±5%
460
抗拉强度 (N/5cm)≥Warp
1400
抗拉强度 (N/5cm)≥Weft
1000
网孔 Mesh (mm)
10x10
样图 lllustration
PTFE Belts Guiding Types
Guiding Type
Description
Illustration
Metal Studs
Guide with metal studs on the edge of the belt. A groove is made on the conveyor roller, into which the studs fit and ensure the guidance of the belt. Simple and cheap solution, suitable for belt speeds up to 20 m/min. The studs can be of different sizes and diameters.
Metal Eyelets
Guide with metal eyelets on the edge of the belt. The metal eyelets are attached to the chain carriers with springs.
PTFE guide
A PTFE guide ensures your mesh belt stays perfectly aligned, minimizes friction and wear, and protects the belt edges for smooth, precise conveying.
Kevlar Cord
Kevlar cord of various sizes is attached by stitching on the edge of the belt. It is an alternative to wedge guides for common types of conveyor belts. A groove is made on the conveyor roller, into which the cord fits and ensures the belt guide.
Silicone Guide Strip
The silicone guide strip in a PTFE belt helps keep the belt running straight, absorbs vibration, reduces noise, and provides a softer, more flexible guiding solution—especially useful in high-speed or delicate material applications.
To prevent edge fraying, cracking, or mechanical damage, PTFE conveyor belts can be reinforced with various materials. Depending on the application, edges may be welded, stitched, or laminated using compatible high-performance fabrics.
Welded PTFE edge reinforcement is recommended in the following situations:
•For heavy-duty applications, where added edge protection or increased tensile strength is required.
•When using open mesh fabrics for transport or drying, to enhance durability and handling.
•In belts equipped with side guides or tracking studs, to provide structural support and stability.
•For wide belts, using double-sided edge reinforcement ensures even tracking and reliable performance.
PTFE Belts Joints
Joint Type
Description
Illustration
Overlap Joint
An overlapping joint is a simple and practical solution for applications where a perfectly flat belt surface is not required.
Butt Joint with Strap on Underside
A butt joint with an underside strap is formed by aligning the belt ends together and welding a backing strip underneath, resulting in a smooth and even top surface.
Finger Joint with Strap on Underside
Like butt joints, finger joints with a bottom strap are welded for a smooth finish, but they offer improved stress distribution and greater bending resistance.
2-Ply Belts with Staggered Splice
2-ply belts are made by laminating two layers of PTFE-coated fabric with staggered splices, ensuring uniform thickness throughout the belt. This design delivers consistent sealing performance and offers enhanced strength and flexibility.
Castellated Joint
Loops of aramid or fiberglass foil are formed at both ends and interlock, allowing the belt to be joined with a plastic bar. This lightweight joint sits flush with the belt surface, preventing damage to products.
PEEK joint
The PEEK joint provides high mechanical strength and heat resistance, making it ideal for heavy-duty and high-temperature PTFE belt applications.
Anker G Hook Clips
Metal hooks are inserted into the belt ends and joined with a metal pin to form an endless loop. The hooks can be recessed to maintain a flat belt surface, making this joint suitable for high-stress applications.
Bullnose Joint
The Bullnose joint in PTFE belts allows for easy pin connection, smooth tracking, and quick installation or replacement. It’s ideal for applications requiring frequent belt changes and offers good strength with minimal surface disruption.
Customization & Support
Mesh Sizes: Micro (1x1mm) to open (10x10mm).
Colors: Natural, black (carbon-added), or custom dyes.
Installation: Pre-tensioned, with sewn fasteners or butt-welded joints (up to 100m lengths).
Global Support: 24/7 technical assistance, on-site commissioning, and repair kits.
Why Choose Us?
8+ Years Expertise: OEM partnerships and in-house R&D.
ISO 9001 Certified: Rigorous quality control and batch traceability.
Fast Turnaround: Prototypes in 3 days; bulk orders in 2–3 weeks.
Technical Support Program
24/7 Expert Assistance: Direct access to our PTFE belt engineers for troubleshooting and optimization.
Process Audits: Free annual conveyor system evaluations to ensure peak performance.
Wear Analysis: Regular belt performance reviews with actionable maintenance recommendations.
Free PTFE Mesh Belt Sample
Request a free sample for real-world testing.
Consult our engineers for a tailored solution.
Elevate your conveyor system with PTFE technology — contact us today!
Discover the Unmatched Versatility of PTFE Mesh Belt for Clothing Industry
From food processing to cutting-edge aerospace manufacturing, our PTFE mesh belts deliver reliable, high-temperature performance wherever you need precise, non-stick conveying. Engineered with corrosion-resistant coatings and customizable mesh sizes—from ultra-fine 1×1 mm to open 10×10 mm grids—these belts ensure smooth, consistent transport through drying ovens, curing chambers, sintering furnaces, and beyond.
Whether you’re producing delicate pharmaceutical patches, high-strength carbon-fiber composites, or biomass fuel pellets, our comprehensive industry guide (1–125) helps you pinpoint the perfect belt specification for your process:
•Optimized for heat and chemical resistance—handles up to 260 °C continuous operation.
•ESD-safe and anti-static options—ideal for electronics, battery, and precision-assembly lines.
•Food-grade, FDA-compliant belts—safe for all baking, dehydration, and packaging applications.
•Reinforced and wear-resistant variants—extend service life in abrasive and high-load environments.
Use our detailed application matrix to streamline product selection, enhance throughput, and minimize downtime. Ready to find the ideal PTFE mesh belt for your process? Contact our technical team for personalized recommendations, CAD drawings, and sample trials—engineered solutions that keep your production moving forward without sticking points.
