Fashional Printable Digital Laminating Film High Efficiency Excellent Performance
Specifications:
TYPE | THICKNESS (micron) | ||
MATT | TOTAL | BASE | EVA |
30 | 15 | 15 | |
WIDTH (mm) | 100 ~ 1570 | ||
LENGTH (m) | 100m, 200m, 500m, 1000m, 2000m | ||
PAPER CORE | 25.4mm(1 inch) / 76mm (3 inch) | ||
BONDING | ≤2 | ||
CORONA TREATED | Double side | ||
SURFACE TENSION | 38 Dyne/cm ≤ 42 Dyne/cm | ||
LAMINATION TEMP. | 90±10°C | ||
ROLLER PRESSURE | 10 ~ 20Mpa | ||
LAMINATION SPEED | 20 ~ 70M |
Description:
Super Bonding Thermal Lamination Film is one type of BOPP thermal lamination film especially used in laminating digital presswork. Most of digital printing materials are of silicone oil base, so general BOPP thermal lamination film is easy to be tore off after lamination. Therefore, we have invented this super bonding film to cope with silicone oil so that films can stick well on digital presswork.
This type of film is suitable to be used on printed matters utilizing all types of digital printing machines such as Xerox, HP, Kodak, Canon, Xeikon, Konica Minolta, Founder and others. It also can be laminated on the surface of non-paper materials, for example PVC film, outdoor or indoor advertising inkjet film.
Why chooses NEI super bonding thermal lamination film?
1. Environmentally friendly: It is non-toxic, odorless, or non-benzene because non-solvent based adhesive is used. It is environmentally friendly and non-hazardous to human health since no toxic gases or volatile content is emitted during lamination process. In addition, it is easier to recycle than water-based lamination film because film and paper can be easily separated.
2. Safe operation: Non-solvent based adhesive is used so it will eliminate the fire hazard that is caused by the use and storage of flammable solvents.
3. Excellent performance: Compared with wet lamination, thermal lamination film enhances the color saturation and brightness of presswork. It also has stronger ability of absorbing powder and adhesive force. Furthermore, it is effective to prevent being blistered or separated from presswork in lamination process. As it has strong adhesive ability and surface tension, it can be used for latter processes, including spot UV, hot stamping, die cutting, indentation process.
4. Easy handling: Once the required temperature and pressure is met, lamination can be easily operated. No other special technique is required.
5. High efficiency: Production cost and labor cost are reduced substantially as there is no film wastage, mixture of adhesive solvent, or no UV heating lamp (drying system) is required. Therefore, it saves production space as well.
6. Wide adaptability: It is widely adaptable to different types of lamination machines, including wet and dry laminator. Only small adjustments need to be made to the machine if wet laminator is used.
Why chooses NEI?
1. We have first invented this super bonding film in China since 2010.
2. Adaptable to all types of presswork from digital printing machines of different brands.
3. NEI has professional experience in film industry since 1995 so we have good quality control and after-sale services to support you.
4. 10 yeas of export experience to many countries, including South America, North America, Middle East, Asia, Africa, Oceania, etc. so we have good reputation in these areas.
5. Compared with other thermal lamination film, our EVA glue is 100% imported from Korea and it ensures the adhesiveness of our film.
6. Customize size and thickness according to customer requests. Labels can be customized as well.
7. Rapid production and delivery.
8. A wide range of thermal lamination film and special films.
Special Instruction:
1. NEI super bonding thermal lamination film is suggested to be laminated with the roller temperature range of 85 to 110°C and roller pressure of 10 to 20 Mpa. However, the optimum conditions are depending on the selected laminator’s speed and dimensional stability.
2. It is advised that the printed surface is well dried before lamination and cools sufficiently one surface before laminating to other surface.