GARAMITE rheology additives are organophilic phyllosicates based on the Mixed Mineral Technology (MMT) for solvent-borne and solvent-free systems. The GARAMITE organophilic phyllosilcates are based on the patented Mixed Mineral Thixotrope (MMT) technology and designed for usage in solvent-borne and solvent-free systems. They have an exceptionally high bulk density (i.e. lower volume), exhibit a very unique rheology profile, are easy to handle and incorporate, and give outstanding sag resistance and anti-settling properties. GARAMITE additives can be used in the most varied of solvent-borne and solvent-free systems such as coatings, plastics, adhesives and sealants, and household and institutional cleaners.
Key benefits
- Rheology additives
- Organophilic phyllosilicates based on patented MMT technology
- For solvent-borne and solvent-free systems
- Easy incorporation
- Excellent improvement of sag resistance and anti-settling properties
Learn more about OPTIGEL
BYK´s OPTIGEL rheology additives are activated phyllosilicates for aqueous systems. The main function of all OPTIGEL products is the thixotropic stabilization of aqueous systems. Depending on the grade, a low to very high thickening effect and excellent anti-settling are achieved. They improve the processability and storage stability and provide anti-sag properties which allow for higher film thicknesses. There are unmodified and organically modified OPTIGEL types, whereby the latter show a high to very high thickening effect. As there are different types of OPTIGEL rheology additives available, it is possible to choose the matching product for various aqueous applications: coatings, adhesives and sealants, construction formulations, household, institutional, and industrial cleaners.
Key benefits
- Rheology additives
- Excellent stabilizing and anti-settling effect as well as sag control
- Prevention of phase separation and syneresis
- Stability of the gel structure over a wide temperature range
- Improvement of processability
- Modification adapted to the intended use
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