Wood Coatings, Primers, Ink Additives
They are products developed with various technologies that make additives to be more effective, reduce the use of titanium in general, and can work in systems where other additives are used.
Advantages:
- It provides resistance to slips and scratches.
- It provides high whiteness and brightness.
- It provides excellent wetting and dispersion.
- It provides compatibility with other products.
It has patented acrylic olefin groft technology. The incorporation of olefin into the acrylic structure usually prevents the low density wax rising naturally to the surface during drying. This allows the wax to better adapt to acrylic systems and form a smoother film.
- It improves abrasion and water resistance.
- It provides resistance to slips and scratches.
- It improves the appearance of the coating.
- It provides UV stability.
Usage Areas: Wood paint
| Ionicity | Nonionic/Anionic |
| Solid Content (%) | 38 |
| pH | 9.2 |
| MFFT (°C) | 35 |
Opaque polymers can be used to replace a certain proportion of titanium dioxide in white paints and printing inks. They protect the coating with enhanced gloss and hardness. They reduce the usage amount of titanium dioxide. They are non-film-forming polymers. Its production is based on “opaque polymer” technology.
- It reduces the cost of formulation.
- It provides high whiteness and brightness.
- Coating formulations can be made with low VOC.
- It provides compatibility in multiple formulations.
Usage Areas: Wood paint
| Ionicity | Anionic |
| Solid Content (%) | 35 |
| pH | 7.0 |
| MFFT (°C) | 80 |
Opaque polymers can be used to replace a certain proportion of titanium dioxide in white paints and printing inks. They protect the coating with enhanced gloss and hardness. They reduce the usage amount of titanium dioxide. They are non-film-forming polymers. Its production is based on “opaque polymer” technology.
- It reduces the cost of formulation.
- It provides high whiteness and brightness.
- Coating formulations can be made with low VOC.
- It provides compatibility in multiple formulations.
Usage Areas: Wood paint
| Ionicity | Anionic |
| Solid Content (%) | 40 |
| pH | 2.5 |
| MFFT (°C) | 80 |
It is based on polymeric surfactant technology. This technology is designed to improve wetting and the incorporation of pigments or additives into water-based inks and coatings.
- It provides excellent wetting and dispersion.
- It provides compatibility in multiple formulations.
- It does not contain ammonia and formaldehyde.
- It has low foam technology.
Usage Areas: Wood paint
| Ionicity | Anionic |
| Solid Content (%) | 30 |
| pH | 7.5 |
| MFFT (°C) | 100 |
It is based on polymeric surfactant technology. This technology is designed to improve wetting and the incorporation of pigments or additives into water-based pigment concentrates and coatings. It is used as a grinding resin in pigment dispersions, improving the color development of organic pigments and carbon black.
- It provides excellent wetting and dispersion.
- It provides compatibility in multiple formulations.
- It does not contain APEO .
- It has low foam technology.
Usage Areas: Wood paint
| Ionicity | Anionic |
| Solid Content (%) | 25 |
| pH | 7.2 |
| MFFT (°C) | 77 |