Visit patproducts.com
All Categories
Products
986
Brands
62
Documents
612
Technologies
Markets
Products
P.A.T. Products
All P.A.T. Products
Search products
Matching Product Categories
CASE Ingredients
Industrial Additives & Materials
Plastics
Markets
Labeling Claims
Physical Form
Certifications & Compliance
Regional Availability
All Filters
6 Products found on P.A.T. Products
Most Viewed
TDS
With TDS
P.A.T. Products
Deuteron® LE 100 LV
Chemical Family:
Quaternary Ammonium Compounds
Functions:
Anti-Static Agent, Wetting Agent
Labeling Claims:
Solvent-free
Compatible Polymers & Resins:
Epoxies (EP)
Features:
Low Viscosity, High Polarity, Good Anti-Static Properties, Anti-Static
Deuteron® LE 100 LV stands as a 100% active conductivity additive leveraging tetraalkyl-ammonium ethyl sulfate. These anti-static additives facilitate fine-tuning surface and volume resistivity across various systems. Deuteron LE 100 LV is a carrier-free liquid that ensures easy integration without introducing potentially undesirable solvents into a system. These products blend seamlessly into all solvent mixtures commonly employed in coatings, although slight turbidity might occur. They are solvent-free, fluid, and effortlessly dosed at room temperature.
P.A.T. Products
Deuteron® LE 200
Chemical Family:
Quaternary Ammonium Compounds
Functions:
Anti-Static Agent, Wetting Agent
Labeling Claims:
Biodegradable, Non-Toxic, Non-Hazardous
Compatible Polymers & Resins:
Polyurethanes (PU), Polyvinyl Chloride (PVC)
Deuteron® LE 200 functions as a conductivity additive rooted in a branched quaternary ammonium compound. Employing these anti-static additives enables fine-tuning surface and volume resistivity across diverse systems. Its effectiveness primarily hinges on surface migration and the ionic attributes of the cations. The product presents as a yellowish paste.
P.A.T. Products
Deuteron® LE 829
Chemical Family:
Quaternary Ammonium Compounds
Functions:
Wetting Agent, Anti-Static Agent
Features:
Anti-Static, Good Anti-Static Properties
Deuteron® LE 829 functions as a conductivity additive rooted in tetraalkylammonium ethyl sulfate. These anti-static additives enable the fine-tuning of surface and volume resistivity across diverse systems. The effectiveness of Deuteron's anti-static properties is primarily based on surface migration and the ionic character of the cations, which facilitate the desired adjustments in electrical properties.
P.A.T. Products
Deuteron® LE 512
Chemical Family:
Quaternary Ammonium Compounds
Functions:
Wetting Agent, Anti-Static Agent
Labeling Claims:
Solvent-free, Plasticizer-free
Features:
Anti-Static, Good Anti-Static Properties
Deuteron® LE 512 stands as a 100% active conductivity additive founded on tetraalkylammonium ethyl sulfate. The utilization of these anti-static additives facilitates the fine-tuning of surface and volume resistivity across diverse systems. The efficacy of Deuteron® LE 512 anti-static properties primarily relies on surface migration and the ionic character of the cations to achieve the desired adjustments in electrical properties.
P.A.T. Products
Deuteron® LE 151
Functions:
Wetting Agent, Anti-Static Agent
Features:
Improved Hardness, Anti-Static, Good Anti-Static Properties
Deuteron® LE 151 serves as a conductivity additive formulated with tetraalkylammonium ethyl sulfate. This anti-static additive enables the manipulation of surface and volume resistivity within diverse systems. Its effectiveness stems from surface migration and the ionic attributes of the cations, which play a pivotal role in the impact of Deuteron's anti-static additives.
P.A.T. Products
Deuteron® LE 292
Chemical Family:
Quaternary Ammonium Compounds
Functions:
Wetting Agent, Anti-Static Agent
Labeling Claims:
Non-Hazardous, Biodegradable
Compatible Polymers & Resins:
Polyvinyl Chloride (PVC), Polyurethanes (PU)
Deuteron® LE 292 is a conductivity additive formulated from a branched quaternary ammonium compound. It serves as an anti-static agent, enabling the adjustment of surface and volume resistivity within different systems. Its function primarily relies on surface migration and the ionic nature of the cations to regulate resistivity levels.