Skip to content 
| Parameter | Specification / Description |
| Base Material | Blend of cellulosic fibers and synthetic fibers (e.g., polyester) . |
| Common Basis Weight | Can vary; formulations with ≥29 g/m² are achievable . |
| Thickness | Variable, often customizable. The creping process can create a bulkier product, with thicknesses adjustable within a range (e.g., thickness fluctuations of 0.15-0.45mm have been documented in creped materials) . |
| Elongation / Stretch | Can be engineered for high stretch; >87.3% elongation reported in some crepe papers , with machine direction stretch of at least 3% achievable . |
| Key Enhancements | Can be treated/compounded for specific properties: improved dielectric strength, fluid resistance, saturation with resins (e.g., epoxy) , or increased tear strength . |
| Customization | Weight, thickness, color, and specific performance properties (e.g., tensile strength, fluid absorbency, chemical resistance) can be tailored. |
Note: Specifications can be customized based on client requirements.
Product Overview
Crepe Compound Paper is a high-performance material that combines the natural stretch and conformability of traditional crepe paper with enhanced strength and durability. We achieve this by adding synthetic fibers or integrating the paper with films, foils, or resins. Its unique crinkled texture improves elasticity and allows it to fit tightly around irregular shapes. This makes it ideal for industrial, electrical, and protective applications.
High Conformability and Elasticity
The creped structure allows the paper to stretch and wrap around sharp bends, complex curves, and uneven surfaces. It ensures complete coverage for protection.
Enhanced Mechanical Strength
Adding synthetic fibers increases tear resistance. The paper resists punctures and stays intact during handling and application.
Absorbent and Saturable
Certain grades of crepe paper absorb resins, varnishes, or other fluids efficiently. This makes it suitable as a substrate for composite materials.
Excellent Dielectric Properties
Some grades offer high electrical insulation, making them ideal for transformers, motors, and other high-voltage applications.
Thermal and Chemical Resistance
The paper withstands elevated temperatures and resists chemicals, oils, and solvents. This ensures stable performance in demanding environments.
Electrical Insulation
Use it to wrap cables, insulate transformer leads, and reinforce composite materials. It can replace traditional varnished cambric.
Industrial Masking and Protection
Protect areas during painting, powder coating, or plating. The paper conforms tightly for clean, precise coverage.
Protective Packaging and Cushioning
Wrap sensitive surfaces like metal, glass, or plastic to prevent scratches and abrasions. Its cushioning effect absorbs shocks during transport.
Composite Material Substrate
Serve as a carrier or reinforcement for resins or polymers to create strong, durable composite parts.
What is the difference between crepe paper and crepe compound paper?
Crepe compound paper is stronger and more durable. It includes synthetic fibers or additional materials that increase tear strength, dielectric properties, and chemical resistance.
Can it be customized for specific applications?
Yes. We can adjust thickness, weight, fiber blend, stretch percentage, and apply special coatings to enhance properties like moisture resistance or adhesion.
Is it suitable for high-temperature use?
Yes. Some grades tolerate up to 150°C. These are designed for motors, transformers, and other high-temperature environments.
How does the creping process help performance?
The process creates tiny folds in the paper, improving stretch, elongation, and conformability. It also makes the paper bulkier and more absorbent.
How should I store this product?
Store in a cool, dry place, away from direct sunlight. Under proper conditions, the shelf life is one year from the manufacturing date.
Optimized by Seraphinite Accelerator
