DSX 3290
Polyurethane
Cognis
流变调整器/增稠 >> 联合 >> 疏水乙氧聚胺脂 (HEUR)
Rheology Modifier/ Thickener >> Associative >> Hydrophobically modified ethoxylate urethane (HEUR)
涂层 >> 水生
Coatings >> Waterborne
海洋 /防腐/保护
Marine /Anti-Corrosive / Protective
water / diluent
Use Highly effective, non-ionic rheology additive with high
thickening properties at low shear stress (to form a
pseudoplastic viscosity).
Composition Solution of a polyurethane in water/diluent
Properties DSX® 3290 is an effective rheology additive
designed to achieve higher pseudoplastic viscosity
compared with other PUR thickeners.
Solvent-free product
Application DSX® 3290 improves the stability of aqueous
coatings providing similar performance to inorganic,
cellulose or acrylic thickeners. In contrast to these
thickeners, DSX® 3290 has no negative influence on
the gloss or opacity, and also has excellent water
resistance due to its non-ionic character.
DSX® 3290 provides the optimum performance in
aqueous clear and high gloss top coatings, as well
as anti-corrosive paints and thick layer systems.
Dosage Typical dosage of DSX® 3290 lies between 0.2 -
1%, which has to be incorporated into the paint or
the mill base during stirring.
The coating containing DSX® 3290 should be
allowed to stand for 16 hours, to allow the optimum
rheology to develop.
Non-ionic rheology additive with high thickening properties at low shear stress (to form a pseudoplastic viscosity). Improves the stability of aqueous coatings providing similar performance to inorganic, cellulose or acrylic thickeners. In contrast to these thickeners, this product has no negative influence on the gloss or opacity, and also has excellent water resistance due to its non-ionic character. Provides the optimum performance in aqueous clear and high gloss top coatings, as well as anti-corrosive paints and thick layer systems.
Recommended usage level: 0.2 -1%. Incorporated into the paint or the mill base during stirring. The coating containing this additive should be allowed to stand for 16 hours, to allow the optimum rheology to develop.