
The Perfect solution for your needs
Evonik has its base in a broad range of organic specialty surfactants. Our products, technical background, and application knowledge provide solutions in mineral processing. Browse products by application or simply use the text search.
Browse by Category
All products for this search term
12 products found for search term "Specialty".
- AROSURF® DH 2120
Ready to use spacer surfactant formulation- Leaves formation water wet
- AROSURF® EK 2310
Organic-based superwetter that provides excellent wetting especially on difficult-to-wet surfaces
- AROSURF® FC 2525
100% active defoamer concentrate based on mineral oil; water dispersible; free of silicone oils, organomodified siloxane, and silica
- AROSURF® FC 2807
100% active formulated defoamer; compatible with most systems and for use in a wide range of water-based applications
- AROSURF® FC 2823
Antifoam emulsion based on organomodified siloxanes; combines excellent foam suppression and long-term efficiency and maximum compatibility
- AROSURF® FC 2827
Antifoam emulsion based on organomodified siloxanes; excellent alkaline and electrolyte stability even at higher temperatures
- AROSURF® FC 3024
100% active defoamer concentrate based on organic polymer technology; free of silicone, solvents, and mineral oil
- AROSURF® SR 1330
Low foaming nonionic surfactant designed for applications requiring low foam, fast wetting, water wetting characteristics, and high emulsification
- SHUR-FLO® 17
Specially blended composition to prevent caking and promote flowability in granulated or powdered substrates.
- SURFYNOL® DF 110L
A nonionic molecular defoamer and wetting agent for bacterial leaching in the extraction of high value minerals from ore such as gold. It provides excellent wetting and foam control without compatibility issues
- TOMADOL® EV 900
Environmentally friendly multifuctional wetting agent, surfactant, detergent, surface tension reducer and emulsifer. Dust control.
- TOMAMINE® E-DT-3
Amine-based surfactant; provides emulsification and surface tension reduction