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Advanced Conductive & Reinforced Polymers for Industrial 3D Printing

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Graphmatech develops high-performance FDM filaments and SLS powders engineered for functional additive manufacturing. Our polymers combine controlled electrical conductivity, mechanical reinforcement, and industrial durability — enabling ESD protection, EMI shielding, radar absorption, and structural performance in demanding applications.

  • Conductive & ESD-safe materials
  • Reinforced structural filaments
  • High-temperature engineering polymers
  • EMI shielding and radar absorbing polymers
  • Solutions for both FDM and SLS processes
FilamentsASAPETGPVDFPPSFilament selection guideSLS - PA11 / PA12

Strength

  • Improved tensile strength
  • Maintained ductility
  • Industrial durability
  • UV stable

Speed

  • High-speed extrusion compatibility
  • No stringing
  • No nozzle abrasion

Conductive & ESD

  • Surface resistivity tunable
  • ANSI/ESD STM11.11 acceptance
  • Suitable for electronics environments
  • EMI shielding materials

Stealth

  • Radar absorbing materials (RAM)
  • Reduced IR signature
  • EMI shielding

Additive manufacturing is moving beyond prototyping. Today, industrial users require functional 3D printed components with controlled electrical properties, mechanical durability and environmental resistance. Our materials are engineered for FDM and SLS processes where performance matters — not just printability.

By combining advanced polymer systems with conductive carbon and graphene-based additives, we enable materials that meet industrial requirements for ESD safety, EMI shielding and radar absorption while maintaining reliable extrusion behavior and strong interlayer adhesion.


FDM Filaments and Pellets

with Aros Graphene technology

AROS ASA reinforced
Reinforced Filament for Outdoor & Structural Applications

AROS ASA is a graphene-reinforced FDM filament engineered for structural components used in ambient and outdoor environments.

The formulation enhances tensile modulus and strength compared to neat ASA while also enabling faster print speeds and stable melt flow. Unlike heavily filled fiber-reinforced materials, AROS ASA maintains smooth extrusion without excessive brittleness, warping, or nozzle wear.

Compared to standard ASA, the material supports higher throughput while preserving dimensional stability and mechanical integrity.

AROS ASA delivers:

  • Increased stiffness and tensile strength
  • Faster printing compared to neat ASA
  • Stable flow and reliable layer adhesion
  • Isotropic mechanical performance across print orientations
  • No warping, stringing, or nozzle clogging

With the UV resistance and weather durability of ASA, the material is well-suited for:

  • Outdoor components
  • Structural housings
  • Brackets and fixtures
  • Construction-related parts
  • Functional end-use components in ambient conditions

FDM Filaments

  • Aros ASA Reinforced
  • Aros ASA Reinforced GN

Pellets

  • Aros ASA MB
  • Aros ASA Reinforced (pellets)
  • Aros ASA Reinforced GN (pellets)
  • Aros ASA ESD (pellets)
AROS ASA Reinforced 3D printing filament spool with pellets and printed structural parts, graphene-enhanced engineering polymer for industrial additive manufacturing. Photo by Johan Inghammar Magnusson.

AROS PETG ESD
High-speed, Isotropic ESD-Safe

AROS PETG ESD is an engineered conductive PETG filament designed for controlled electrostatic discharge in electronics manufacturing and ESD-protected environments.

The material features tunable surface and volume conductivity, achieved with minimal graphene loading. This enables ESD-safe performance with significantly reduced compromise to mechanical strength, melt flow behavior, and print speed compared to conventional carbon-filled systems.

Thanks to graphene’s unique geometry and optimized network in the matrix polymer, the material exhibits highly isotropic electrical and mechanical properties. This ensures consistent conductivity and strength in all print directions — enabling greater design freedom and predictable part quality regardless of build orientation.

AROS PETG ESD offers:

  • Print speeds 20–120% faster than comparable conductive PETG ESD materials
  • No warping, stringing, clogging, or abrasive wear on nozzle
  • Stable extrusion and strong interlayer adhesion

The material is developed specifically for:

  • ESD-safe housings for sensitive electronics
  • Jigs, fixtures, and assembly tools in electronics production
  • Test equipment and laboratory components
  • Custom enclosures used in ESD-protected areas (EPA)
  • Replacement parts where electrostatic protection is critical

FDM Filaments

  • Aros PETG ESD

Pellets

  • Aros PETG MB
  • Aros PETG ESD 104
  • Aros PETG ESD 106
  • Aros PETG ESD 108
AROS PETG ESD 3D printing filament spool with pellets, printed enclosure and electronics board for electrostatic discharge-safe industrial applications. Photo by Johan Inghammar Magnusson.

AROS PVDF
Electrically Conductive & Flexible ESD

AROS PVDF grades combine functional electrical conductivity with mechanical flexibility and chemical resistance. Designed for electrically active components and static-safe structures, the material enables both conductive and ESD-safe applications in demanding environments.

AROS PVDF Conductive

Delivers printed-part conductivity in the range of 10–20 S/m, enabling:

  • Integrated resistive heating
  • De-icing systems
  • Electrically active housings
  • Lightweight conductive structures

AROS PVDF ESD

Provides controlled surface resistivity within the ESD-safe range while maintaining flexibility and high impact resistance — ideal for components requiring static protection without brittle behavior.

Advantages of PVDF

  • Excellent chemical resistance
  • High thermal stability
  • Inherent flame resistance
  • Long-term durability in harsh environments

FDM Filaments

  • Aros PVDF Conductive
  • Aros PVDF ESD
  • Aros PVDF Reinforced

Pellets

  • Aros PVDF MB
  • Aros PVDF Conductive (pellets)
  • Aros PVDF ESD (pellets)
  • Aros PVDF Reinforced (pellets)


AROS PVDF Conductive 3D printing filament spool with printed functional components demonstrating electrical conductivity. Photo by Johan Inghammar Magnusson.

AROS PPS
High-temperature ESD filament for Demanding Environments

AROS PPS ESD is a graphene-engineered high-temperature filament designed for reliable electrostatic discharge control in environments where conventional ESD materials fail. Based on polyphenylene sulfide (PPS), it combines structural strength, inherent flame resistance, and thermal stability up to 250 °C.

AROS PPS ESD delivers:

  • Surface resistivity in ESD-safe range
  • Maximum service temperature up to 250 °C
  • High stiffness and dimensional stability
  • Inherently flame-retardant PPS base polymer
  • Chemical resistance to fuels, oils and solvents

Suitable for high-temperature ESD tooling, curing fixtures, burn-in holders, and electronics processing jigs where both thermal stability and static control are critical.

AROS PPS Conductive

For applications requiring higher electrical conductivity, AROS PPS Conductive provides stable bulk conductivity while retaining the thermal and mechanical advantages of PPS.

Ideal for electrically functional components, grounding features, and high-temperature conductive housings exposed to demanding industrial conditions.

Both grades are intended for high-temperature FDM systems with controlled chamber environments.

FDM Filaments

  • Aros PPS Conductive
  • Aros PPS ESD
  • Aros PPS Reinforced

Pellets

  • Aros PPS MB
  • Aros PPS ESD (pellets)
  • Aros PPS Reinforced (pellets)
  • Aros PPS Conductive (pellets)
AROS PPS high-temperature ESD 3D printing filament spools with printed industrial components and pellets. Photo by Johan Inghammar Magnusson.

Filament selection guide

Not sure which material fits? Talk to our engineers:

Contact our materials team

● = Very Low, ●● = Low, ●●● = Medium, ●●●● = High, ●●●●● = Very High

Ratings are relative comparisons within the AROS portfolio and based on typical industrial FDM printing conditions.


SLS Powders

with Aros Coat technology

AROS PA11 / PA12 ESD
ESD-Safe SLS Powders for Industrial Production

AROS PA11 ESD and AROS PA12 ESD are graphene-engineered SLS powders designed for reliable electrostatic discharge control in industrial batch production.

Using Aros Coat technology, each powder particle is partially wrapped with graphene. This creates a controlled conductive network during sintering — without free-flowing additives — improving safety and process stability.

Typical electrical performance (PA11) includes surface resistivity in the 10⁵ Ω/sq range and volume resistivity around 10⁴ Ω·cm.

AROS SLS powders provide:

  • Improved powder flowability
  • Reduced static charge build-up
  • Cleaner handling with less airborne dust
  • Stable electrical performance after powder reuse (PA12)

Product pages:

  • Aros PA11 ESD SLS
  • Aros PA12 ESD SLS

AROS PA11 and PA12 ESD SLS powder with printed selective laser sintering components for industrial additive manufacturing. Photo by Johan Inghammar Magnusson.

Contact our materials team


Fill in the form, or send an email directly to our sales department:
[email protected]


For general questions:
[email protected]


Defence related questions, contact:
[email protected]


Hope to hear from you soon!