HPP Conductive Polymers: Combining Performance and Conductivity

Combining Mechanical Performance and Electrical Conductivity

Traditionally insulating, certain high-performance polymers (HPPs) can be formulated to become electrically conductive. By adding active fillers (graphite, carbon fibers, nanotubes), they can be used to design lightweight, chemically resistant parts capable of conducting electricity, without the drawbacks of metals (weight, corrosion, oxidation).

How do you make a polymer conductive?

Two main approaches:
- Incorporation of conductive fillers (carbon fibers, carbon black, graphite) → to achieve a percolation threshold
- Chemical doping (PANI, PPy) for modulated semiconductivity requirements
These processes transform an insulator into a conductive or dissipative material, while retaining the mechanical and thermal advantages of HPPs.
 

HPP Conducteurs Électriques - DEMGY selection

Product

 

Conductivity (S/cm)

 

Continuous temperature

 

Key properties

 

PEEK 450CA30

 

10-² à 10-⁴

 

250°C

 

30% carbon fiber, rigid structure

 

Modified KetaSpire® KT820

 

Variable

 

260°C

 

Moderate conductivity + mechanical strength

 

Teflon® FEP 9302

 

Semiconductor

 

200°C

 

Chemical inertia + controlled insulation

 

PPS Ryton® R4 modified

 

Modular

 

220°C

 

Rigidity + electromagnetic shielding

 
Press Enter to type after or Shift + Enter to type before the widget.

Industrial applications of conductive HPP

Aerospace

  • Electromagnetic shielding, static dissipation in sensitive areas
  • Conductive FEP : reliable from -200°C to +200°C

Defense & radar

  • Antennas, sensors, shielded sheaths
  • Modified Ryton®: thermal and electrical stability

Electronics and connectors

  • Housings, connectors, heat sinks
  • Conductive PEEK: mechanical precision + controlled conductivity

Automotive & batteries

  • Electrostatic dissipation, battery safety
  • Modified KT820 : dimensional stability + controlled conduction
     

DEMGY: mastering conductive materials

Customized selection

  • Conductive, dissipative or semiconductive, depending on requirements
  • Advice on formulation, charge concentration, environment

Specialized processing

  • 5-axis machining of high-precision components
  • Repeatable injection molding with consistent EMC properties
  • Custom additive manufacturing

Validation & compliance

  • Conductivity tests (surface resistance, volume)
  • Specific standards: ATEX, IEC, MIL, aeronautics
     

Conductive HPPs meet critical needs where metals fail: lightweight, chemically stable, corrosion-free, complex geometries. DEMGY offers you high-performance materials that are mechanically strong and electrically efficient.