Product Overview
Micron Polymer Doctor Blades are specially engineered to remove excess ink or coating from gravure cylinders and rollers while maintaining gentle contact with the printing surface. Unlike conventional steel doctor blades, polymer blades significantly reduce cylinder scoring, minimize wear, and provide smoother machine operation. Their non-metallic construction also improves operator safety and reduces the risk of damage to expensive printing cylinders.
These doctor blades are widely used in gravure printing, flexographic printing, flexible packaging, paper printing, label printing, laminating, and coating applications. Manufactured by MICRON, they are supplied in standard 50-meter rolls with widths ranging from 20 mm to 60 mm, making them suitable for different machine configurations and production requirements. Whether your goal is to improve print consistency, reduce maintenance costs, or increase cylinder life, Micron Polymer Doctor Blades provide a reliable and cost-effective solution.
Technical Specifications
|
Specification |
Details |
|
Product |
Micron Polymer Doctor Blades |
|
Material |
Engineering Polymer |
|
Application |
Printing Industry |
|
Function |
Removes excess ink or coating from cylinders and rollers |
|
Width Available |
30 mm, 35 mm, 40 mm, 45 mm, 50 mm, 55 mm, |
|
Roll Length |
50 Meter and 100 Meter |
|
Color |
Off White |
|
Surface Finish |
Polished |
|
Packaging Type |
Box |
|
Compatible Printing |
Gravure Printing, Flexographic Printing, Coating Applications |
|
Industry Use |
Flexible Packaging, Labels, Paper, Laminates, Packaging Printing |
Key Features
- Manufactured from high-quality engineering polymer.
- Reduces wear on gravure cylinders and anilox rollers.
- Excellent chemical resistance and long service life.
- Delivers precise ink metering and smooth wiping performance.
- Safer handling compared to conventional metal doctor blades.
- Available in multiple widths from 30 mm to 55 mm.
- Supplied in convenient 50 meter and 100 meter rolls.
- Suitable for gravure, flexographic, and coating applications.