Anti-static agent for conductive polyethylene rotomolded parts with preserved mechanical properties and light colors


TUBALL™ graphene nanotubes (single wall carbon nanotubes) provide superior electrical conductivity to polyethylene rotomolded parts. Graphene nanotubes’ unique morphology allows them to create a dense conductive network inside polyethylene rotomolded parts at ultralow loading rates—starting from just 0.01 wt.% in the total compound. This unprecedentedly low concentration has minimal impact on the mechanical properties or the original color of the material.

TUBALL™ graphene nanotubes are applied via easy-to-use TUBALL™ MATRIX, which is a line of additives based on polymer carriers and pre-dispersed TUBALL™ graphene nanotubes, or TUBALL™ COAT_E suspensions.

Choose the TUBALL™-based product based on your requirements:


Concentrate carrierWater + anionic
surfactant
Alkylolammonium 
salt
Polyethylene
wax
Form
SuspensionPastePellets
Conductive properties
Anti-static / conductive
105–109 Ω/sq
Anti-static
107–108 Ω/sq
Anti-static
106–107 Ω/sq
Working  dosages*0.25–2.50 wt.%0.5 wt.%0.7–1.0 wt.%

*Values may vary depending on the formulation, processing, and products, and are given as a typical reference. 

TUBALL™ anti-static additive for polyethylene rotomolded parts demonstrates the following benefits:  

  • Permanent, stable anti-static properties without “hot spots”
  • Maintained or even increased mechanical properties
  • Possibility of color solutions*
  • Stable performance reducing the number of out-of-spec parts

    *Depending on the formulation, processing, and products.

    Maintained mechanical properties

    In contrast to conventional additives, graphene nanotubes make it possible to preserve the mechanical properties and light colors, and have a minimal impact on the viscosity and density, of the host material.

    OCSiAl internal results.

    EASY TO APPLY AT REQUIRED APPROACH

    TUBALL™-based products can be processed with standard equipment that is widely used in the thermoplastics industry.