CC-67 METAL DOCTOR BLADE
- Short Lamella Blade Edge
- Long Lamella Blade Edge
- Short Bevel Blade Edge
- Long Bevel Blade Edge
- Round Blade Edge
- Square Blade Edge
- Width Range: 8mm-60mm
- Width Tolerance: ±0.1mm
- Thickness Range: 0.152mm-0.3mm
- Thickness Tolerance: ±0.005mm
- Hardness: 600-620HV
- Tensile Strength: 1850-2150Pa
- Straightness: ≤0.5mm/3000mm
- 8mm×0.15mm×100m
- 9mm×0.15mm×100m
- 10mm×0.102mm×200m
- 10mm×0.15mm×100m
- 20mm×0.15mm×100m
- 20mm×0.2mm×100m
- 30mm×0.15mm×100m
- 30mm×0.2mm×100m
- 35mm×0.15mm×100m
- 35mm×0.2mm×100m
- 40mm×0.15mm×100m
- 40mm×0.2mm×100m
- 40mm×0.3mm×100m
- 50mm×0.15mm×100m
- 50mm×0.2mm×100m
- 60mm×0.15mm×100m
- 60mm×0.2mm×100m
- These doctor blades have a high-hardness composition which ensures that their edges remain intact for prolonged use, minimizing surface wear and print inconsistencies.
- Resistance to oxidation and chemical corrosion supports reliable performance in demanding printing conditions.
- Compatibility with corrosive and varnish-based inks helps protect printing plates from unnecessary damage.
- The ability to handle high-viscosity black inks ensures even distribution and predictable results.
- A polished blade edge contributes to smoother ink transfer, particularly in varnishing applications.
Gravure printing, Flexo printing, Roller Coating, Adhesive coating, Lamination
Solvent-based ink, Corrosive ink, Varnish
Doctor blades made from ZAPP 2067 carbon steel offer increased durability and wear resistance, and are suitable for medium to high-speed printing at speeds of up to 250m/min. The enhanced material composition helps counteract the effects of ink impurities, which can cause blade damage, color inconsistencies, and streaking over time. By reducing these issues, these metal doctor blades contribute to more stable and uniform print quality. Their strong resistance to corrosion and oxidation allows these doctor blades to maintain their integrity when exposed to varnishes and chemically reactive inks. The extended lifespan ensures that print professionals can minimize blade replacements while maintaining consistent ink transfer across long production runs.
