The CCL Press Pad is a cutting-edge high-temperature buffer material designed to meet the rigorous demands of the 5G electronics industry. Composed of special-grade glass fiber cloth and high molecular polymer, this product outperforms traditional kraft paper in terms of thermal resistance, stability, and environmental sustainability. With a reusable design, it can withstand temperatures up to 260°C, making it an ideal choice for high-standard lamination processes.
| Performance Category | Flatness | Roughness | Wear resistance | Size shrinkage | Thickness change | Buffer performance | High temperature resistance | Number of recommendations |
| Red hard pad Suitable for CCL | ★ | ❏ | ★ | ★ | ★ | ★ | ★ | 500-800 |
| kraft paper | ❏ | ★ | ❏ | ★ | ❏ | ❏ | ⊙ | 1-5 |
The CCL Press Pad is specifically engineered for the CCL pressing process, offering unparalleled stability and precision. It enhances ruler stability (reducing deviation from ±300ppm to ±250ppm), ensures uniform plate thickness, and optimizes energy consumption. This makes it an essential component in the production of high-performance electronic materials, particularly in 5G applications.
Exceptional Heat Resistance: The CCL Press Pad operates flawlessly at 260°C for extended periods, resisting carbonization and brittleness even under extreme conditions.
Superior Buffer Performance: It provides excellent heat conduction uniformity, stable compression shrinkage, and consistent expansion coefficients, ensuring reliable performance in every use.
Durability and Safety: With a lifespan of 500-800 presses, it is flame retardant, non-toxic, odorless, and dust-free, making it safe for both operators and the environment.
Eco-Friendly and Cost-Effective: Its reusable design reduces waste, while its energy-saving properties lower operational costs, aligning with modern environmental standards.
Customizable Thickness: Available in thicknesses ranging from 1.0mm to 10mm, it can be tailored to meet specific customer requirements.
High-Quality Cost Performance: Combining advanced technology with competitive pricing, the CCL Press Pad delivers exceptional value for industrial applications.
It is suitable for middle layer physical buffering and multiple sheet replacement manual operation. It is also suitable for automation. Single sheet replaces multiple kraft paper on the surface layer.
The CCL Press Pad features a multi-layered design optimized for middle-layer physical buffering. It is compatible with both manual and automated operations, replacing multiple layers of kraft paper with a single, high-performance sheet. This innovative structure ensures consistent pressure distribution and enhances overall production efficiency.
| Compare Item 1 | Navies pad | Bullskin paper | Compare Item 2 | Navies pad | Bullskin paper |
| Chi An | ◎ | ◯ | Heat preservation effect | ◎ | ◯ |
| Life | ◎ | ▲ | Homogeneity of dielectric layer | ◎ | ◯ |
| Pressure buffering | ◎ | ◯ | Impedance controllability | ◎ | ◯ |
| Pressure uniformity | ◎ | ▲ | Plate thickness uniformity | ◎ | ◎ |
| Pressure transfer stability | ◎ | ▲ | Thick copper adaptability | ◎ | ▲ |
| Heat buffering | ◎ | ◎ | Chip cost | ◎ | ▲ |
| Heat transfer uniformity | ◎ | ◎ | Storage convenience | ◎ | ▲ |
| Heat conduction efficiency | ◎ | ▲ | Operation convenience | ◎ | ▲ |
| Processing efficiency | ◎ | ◯ | Cleanliness | ◎ | ▲ |
| Heat resistance | ◎ | ◯ | Recycling and reuse | ◯ | ◎ |
| Moisture resistance | ◎ | ▲ | Cost-effective | ◎ | ▲ |
◎:Excellent ◯:Good ▲:Poor
Our company offers tailored cost-saving solutions for customers, enabling a 10-20% reduction in expenses compared to traditional kraft paper. By switching to the CCL Press Pad, businesses can achieve significant operational efficiencies while maintaining high-quality standards.
Service quality assurance : Ensure that service providers have the professional skills and good attitude to provide high-quality services. Timely response and solve problems, for customer problems and needs, service support personnel should respond in a timely manner and give effective solutions.
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