Pre-order

TUBALL™ MATRIX 205 is a concentrate for solvent-based phenolic systems, based on TUBALL™ graphene nanotubes, designed to provide superior electrical conductivity with minimal impact on the rheological and mechanical properties of the host material matrix.

Material system
solvent-based phenolic resin
Working dosage
0.1–1 wt.%
Сoncentrate carrier
plasticizer & stabilizing agent – fatty carboxylic acid ester derivative, ammonium salt of polyolefin-based derivative
Shape
Paste

Benefits

Electrical Conductivity

Allows uniform and permanent electrical conductivity without “hot spots”

Permanent characteristics

Anti-static properties independent of humidity

Mechanical properties

Maintains or even increases mechanical properties

Flexibility in Colour

Adding colour to phenolic systems is possible due to low working dosages of the concentrate and minimal greying effect

Viscosity Retained

Minimally affects density, viscosity and other rheological properties of matrix material

Easy to Use

The pre-dispersed formula allows use of standard manufacturing equipment

Video

Documentation
Available in 10 languages:
EN
TDS TUBALL MATRIX 205 ENG
pdf
0.4 Mb
TDS TUBALL MATRIX 205 ENG
MSDS TUBALL MATRIX 205 EN-US
pdf
0.2 Mb
MSDS TUBALL MATRIX 205 EN-US
MSDS TUBALL MATRIX 205 EN-GB
pdf
0.2 Mb
MSDS TUBALL MATRIX 205 EN-GB
PROCESSING GUIDELINES TUBALL MATRIX 205 ENG
pdf
1.4 Mb
PROCESSING GUIDELINES TUBALL MATRIX 205 ENG
PROCESSING KEY POINTS TUBALL MATRIX 205 ENG
pdf
0.3 Mb
PROCESSING KEY POINTS TUBALL MATRIX 205 ENG

Product News

October 5
What do you know about nanotube applications in composite materials and the automotive industry? Want to get some insights on Fraunhofer IPA's ongoing projects? Join #naum2018, and check out Ivica Kolaric's speech! #Composites #Automotive #Nanotubes #NanoaugmentedReality
+1
April 13
Dr. Joong Tark Han, Professor, Principal Researcher at Korea Electrotechnology Research Institute, at the Conference on #Nanotubes in South Korea: Nanocarbon Materials for Soft #Electronics #OCSiAl #Nanotechnology #SWCNT #NanoaugmentedMaterials