Carbon nanotube products
Jar
Packaging
Jar 0.4 L (up to 100 g)
Other packaging volumes are available at customers’ request

TUBALLMATRIXMATRIX209MATRIX 209


Conductive additive for aromatic and aliphatic solvent-free PU (polyester, polyether, TDI/MDI, others) and phenolic systmes. Widely applied for PU coatings and cast elastomers. Easy-to-dilute compared to TUBALL™ MATRIX 202.

To buy nanotube products, please contact us. Price depends on the required volumes.

Material system
Solvent-free polyurethane
Working dosage
0.2–1 wt.%
Сoncentrate carrier
Plasticizer – fatty carboxylic acid ester derivative
Shape
Paste

Benefits

Electrical conductivity

Provides cover from anti-static to conductive range, provides permanent, uniform electrical conductivity without “hot spots”

Permanent characteristics

Conductive properties are stable and independent of humidity

Mechanical properties

Maintains the mechanical properties

Low influence on rheology

Minimally affects viscosity and rheological properties

Easy to use

The pre-dispersed formula can be used with standard manufacturing equipment without dust generation



Cases

PU Roller

click to view case

Mining Rollers

click to view case

Industrial Castors

click to view case

Video

Anti-static Polyurethane: Overview of the production and the product niche with an OCSiAl expert

Add anti-static to polyurethane: industrial case with graphene nanotubes


Documents

Also available in:
English
TUBALL MATRIX 202 209 POLYURETHANES PROCESSING GUIDELINES ENG V02.PDF
PDF409.6 kB
TDS TUBALL MATRIX 209 ENG V07.PDF
PDF102.4 kB
TUBALL MATRIX 200X 300X PROCESSING GUIDELINES ENG V03.PDF
PDF614.4 kB

News

March 26
When a child uses a slide, they can build up a charge of 25,000 volts. 💥 Wow, that’s really uncomfortable.😫 For hearing-impaired children with cochlear implants, this charge can even damage their devices. Typically, the slide material is an insulator and charged electrons just stay on its surface. Graphene nanotubes inside colorful gelcoats create a conductive network within the plastic, allowing the electrons to safely pass through the slide without harming the child or their devices. Learn more on nanotube inside gelcoats here: https://tuball.com/nanotubes-for/gelcoats-moldcoats?utm_source=Facebook&utm_medium=TUBALL+inside+coatings+banner&utm_campaign=March+26%2724 #gelcoats #coatings #ESD
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March 19
Transport tanks carrying crude oil and petroleum should not only possess good anti-corrosion properties but also protect highly flammable energy resources from explosion. Splashing, pouring, and turbulence can generate static electricity, resulting in sparks. 💥 How can you improve safety? Simply apply a protective lining with graphene nanotubes inside the composite tank. Nanotubes provide stable and uniform conductivity protecting tanks from static electricity buildup. ✅ Learn more on graphene nanotube applications and uses: https://tuball.com/nanotubes-for?utm_source=Facebook&utm_medium=TUBALL+INSIDE+coatings&utm_campaign=March+19%272024 #oilandgas #ESD #lining #coatings
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March 5
Wind technology helps the shipping industry achieve fuel efficiency and zero emissions. 💨 Rotor sails reduce engine load, cutting fuel usage and emissions by 5–25%. However, high-speed rotation generates electrostatic charge, risking sail damage or fire. 💥 An anti-static gelcoat enhanced with graphene nanotubes eliminates this risk while maintaining sails’ original protection from temperature fluctuations and saltwater effects. Learn more on graphene nanotubes for gelcoats: https://tuball.com/nanotubes-for/gelcoats-moldcoats?utm_source=Facebook&utm_medium=TUBALL+inside+coatings+banner&utm_campaign=March+05%2724 #gelcoat #ESD #coatings #rotorcraft
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