Conductive Thermoplastic Graphene/PLA Pellets
Conductive Thermoplastic Graphene/PLA Pellets, a material by Graphene 3D Lab, is specifically designed to allow you to develop electrically conductive components by injection molding and other polymer forming techniques. The pellets are a graphene-enhanced PLA-based material for use at room temperature and exceed the conductivity requirements for a host of applications.
Conductive thermoplastic (plastic which can be easily molded when heated to a certain temperature) material is widely sought by industry for electromagnetic and radio-frequency shielding, static-dissipation, and anti-static applications; our pellets are far more conductive than required for anti-static and static dissipation, and easily reach the conductivity required for electromagnetic and radio-frequency shielding with a volume resistivity of 1 ohmxcm.
Our conductive thermoplastic, which is significantly more conductive than comparable carbon-based polymers currently on the market, maintains several significant advantages over metals and surfactant coatings; namely, they are usually lighter, allow for easier handling, fabrication tends to be less expensive by eliminating secondary processes, are corrosion resistant, and they are usually inexpensive to ship.
. Volume Resistivity: 1 ohmxcm
. Thermal Conductivity: 0.28 W/(mâ K)
. Carbon Content: 16%
. Pellet Diameter: 1.5 - 2.0 mm
. Processing Temperature: 180-190â°C
. Quantity: 0.5kg
. Sold in pelletized form
Our graphene-enhanced thermoplastic pellets are vacuum sealed and shipped with desiccant packs. Limiting exposure to water vapors will enhance processability. If, however, the pellets are is exposed to moisture, simply dry at 60 degrees Celsius for a few hours before processing.
Conductive Thermoplastic Graphene/PLA Pellets are polylactic acid (PLA) based. PLA is a thermoplastic which is biodegradable and derived from renewable resources, such as corn starch.