Fountain Solutions
Waterfit sf ir sic 2239
Fountain solution for printing with conventional IPA level in sheetfed
Field of Application
- Immediate high-density copies
- Fast and clean start-ups
- Low hazardous classification
- Improved drying of inks
- Eliminates window framing
- Reduced ink and paper piling
- Prevents calcium deposits on rollers and blankets
Properties
- Corrosion inhibited
- Also for continuous stationary offset presses
- Effective plate preservation
- Stable ink water balance
- Controlled water pickup by the ink
- Wide latitude dosage
- Contains cobalt free drying agents
- Conventional IPA usage
Application
Before adding the new fountain solution, it is important to empty and clean the circulation system. Also the condition of the dampening system is important. Check whether the dosing equipment is accurate and applies the correct dosage. For a precise control conductivity measurements are recommended. It is advisable to check the roller settings of the dampening system. When reducing or eliminating IPA a looser roller setting could be necessary.
Specifications
Standard dosage (%) | 3 |
Specific density (kg/l) | 1,07 |
Increased conductivity (μS/cm / %) | 450 |
VOC content (% (Dir 1999/13/EC)) | < 1 |
PH level | 4,8 – 5,2 |
For medium hard water |
Corresponding Products
Extrafit System Clean | Effective cleaner for fountain circulation system with minimum workload |
Extrafit Hardener | Calcium free and OEM approved re-hardener for stable print quality |
Extrafit Damp Cleaner | Efficient water-based dampening roller cleaner meeting the standards of BG ETEM |
Extrafit Roller Gel | Gelbased calcium remover with strong cleaning power |
Washfit | Excellent wash to reduce paper waster and to realise short washing times |
Standard Packaging
- 20 kg
- 210 kg
- 1.050 kg
Note: This technical description is intended to inform and advise you. It corresponds to our current state of knowledge. However, since the specific application depends on a number of factors over which we have no influence, no guarantee and liability for the pressure failure can be derived.