Wood coatings
Dynoadd® additives offer original solutions to surface tension related problems in industrial solvent-borne, water-borne and UV-cured wood coatings. In addition to flow and levelling our additives provide protection against craters, orange peel, pinholes, fish-eyes and foam in a wide variety of formulations.
Modification of surface texture with Dynoadd® P-series gives the surface a smooth feel, full transparency, and reduced gloss finish.
- Dynoadd® F-1 is the all-round flow additive. It gives excellent levelling and crater protection for solvent-borne formulations. It is particularly suitable for acid curing and spray applications.
- Dynoadd® F-100 is a highly compatible flow and levelling additive for solvent-borne lacquers. It is ideally suited for use in 2-pack solvent-borne formulations.
- Dynoadd® F-101 is a levelling and wetting additive for solvent-borne and UV-coatings. It prevents surface defects like orange peel, craters, cissing and pinholes.
- Dynoadd® F-201 gives an optimum balance of foam control and flow & levelling properties for solvent-borne spray-applied formulations.
- Dynoadd® F-203 is effective in aiding air-release, which makes this additive particularly suitable for solvent borne wood coatings. It is compatible in many wax-containing systems.
- Dynoadd® F-404 may be used in all solvent-borne wood coating formulations. It provides a combination of flow and levelling, protection against craters and fish eyes, and improvement of surface slip.
- Dynoadd® F-602 improves wetting and flow properties as well as preventing pinholes and craters in water-borne formulations. Its compatibility combined with low dosage ensures good film clarity.
- Dynoadd® F-706 is a highly effective foam control additive for UV coatings. It is effective in preventing generation of foam and it instantly removes remaining surface foam.
- Dynoadd® P-series enables exact control of texture, scratch resistance, smooth feel, and gloss depending on sizes and film thicknesses. Choose from 6, 10, 15, 20, 30 and 40 µm particles.
