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TUBALLMATRIXMATRIX814MATRIX 814

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This concentrate of TUBALL™ graphene nanotubes is designed to provide permanent, stable electrical conductivity to polyvinyl chloride plastisol. Anti-static to conductive performances are achievable for PVC-plastisol systems.

Gain extra value compared to traditional additives:

  • Obtain conductivity with maintained mechanical performance and coloration potential comparing to high dosages of carbon black
  • Get permanent, stable anti-static and conductive properties compared to organic anti-static agents.
Material system
Polyvinyl chloride plastisol
Working dosage
0.25–2 wt.%
Сoncentrate carrier
Epoxidized fatty acid glyceride
Shape
Paste

Benefits

Electrical conductivity

Enables a full range from electrical conductivity to anti-static protection that is permanent and uniform without “hot spots”

Permanent characteristics

Conductive properties are stable and independent of humidity

Mechanical properties

Maintains the mechanical properties of the plastisol

Low influence on rheology

Minimally affects the viscosity and rheological properties of the plastisol

Easy to use

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

Coloration opportunities

Adding color to anti-static or colored PVC-plastisol is possible due to the low working dosage of the concentrate



Cases

PVC Plastisol-based Flexible Ventilation Ducting
click to view case
PVC Plastisol-based Flexible Ventilation Ducting
PVC Plastisol-based Textile
click to view case
PVC Plastisol-based Textile
Treadmill belts
click to view case
Treadmill belts

Video

TUBALL MATRIX — Processing Guidelines


Documents
Also available in:
english
SDS TUBALL MATRIX 814 EU ENG V3-2.PDF
PDF
307.20 kB
TUBALL MATRIX 814 PVC PLASTISOL PROCESSING GUIDELINES ENG V06.PDF
PDF
409.60 kB
TDS TUBALL MATRIX 814 ENG V06.PDF
PDF
102.40 kB
SDS TUBALL MATRIX 814 US ENG V1-1.PDF
PDF
307.20 kB

News

July 26
In environments like coal mines and chemical facilities where gas and dust accumulation pose risks, contact friction can generate static charges. Ventilation ducting or mine mesh made of PVC plastisol with graphene nanotubes demonstrate anti-static properties independent of humidity and temperature. These properties prevents the dangerous electrostatic buildup that could otherwise lead to sparks and accidents. Stay safe side even in hazardous environments! Learn more on our electrically conductive agent for thermoplastics: https://tuball.com/nanotubes-for/pvc-plastisol?utm_source=Facebook&utm_medium=Post+campaign&utm_campaign=Tuball+inside+plastics_ventilation+ducting #PVC #thermoplastics #composites
May 30
How to eliminate the risk of injury and of damage to conveyed products from electrical current? Make your conveyor belts anti-static. Graphene nanotubes inside belts enhance occupational safety and prevent production failures. Learn more on anti-static agent for conductive PVC-plastisol: https://tuball.com/nanotubes-in/PVC-plastisol?utm_source=Facebook&utm_campaign=Conveyor+belts+short+video #composites #conveyors #PVC #video
December 15, 2022
#Textile products empowered with graphene nanotubes demonstrate improved #functionality and #safety. For example, interactive electronic gloves with touchscreen compatibility and maintained resistance to abrasion. Learn more on this and other business cases by watching a 14-minute OCSiAl #webinar #recording 📽️: https://www.youtube.com/watch?v=nb9bbb4Sst0&t=773s Request a sample here: https://tuball.com/?utm_source=Facebook&utm_campaign=Textile+webinar+video+short+post%232 Learn more on graphene nanotubes for anti-static textile coatings: https://tuball.com/nanotubes-for/anti-static-textile?utm_source=Facebook&utm_campaign=Textile+webinar+video+short+post%232