Product Overview
ARMI® Graphene PU Conductive Coating is a high-performance, single-component polyurethane (PU) coating engineered with 5 wt.% functional graphene nanomaterial to provide durable electrically conductive properties while maintaining excellent mechanical strength, adhesion, flexibility, and environmental resistance.
The coating forms a continuous conductive graphene network throughout the polyurethane matrix, enabling efficient electron transport while simultaneously enhancing scratch resistance, corrosion protection, chemical durability, and long-term coating stability. It is supplied ready to use, requiring no mixing or hardener addition, making application simple and consistent for industrial production.
Conductive Mechanism
The coating utilizes a percolation network mechanism.
At 5 wt.% graphene loading, graphene nanoplatelets interconnect within the polyurethane matrix to form continuous conductive pathways. These interconnected graphene sheets allow electrons to move efficiently throughout the coating while the polyurethane resin acts as a durable protective binder.
The graphene network provides:
- Electron transport pathways
- Static charge dissipation
- Electromagnetic conductivity
- Improved thermal conductivity
- Crack-bridging reinforcement
- Reduced electrical resistance over large coated surfaces
Unlike conventional carbon black systems, graphene offers significantly higher aspect ratio, allowing conductivity to be achieved with improved mechanical performance and lower coating thickness.
Performance Benefits
Electrical
- Static dissipative properties
- Surface conductivity
- Reduced surface resistivity
- EMI shielding capability (depending on coating thickness)
- Improved grounding performance
Mechanical
- Increased tensile strength
- Enhanced toughness
- Improved abrasion resistance
- Better scratch resistance
- Crack resistance
Protective
- Excellent moisture barrier
- Improved oxygen barrier
- Enhanced corrosion resistance
- Chemical resistance
- Long service life
Typical Applications
- Electrostatic discharge (ESD) flooring
- Electronic manufacturing facilities
- Battery manufacturing plants
- Semiconductor industries
- Automotive components
- Conductive industrial flooring
- Metal structures
- Storage tanks
- Pipelines
- Industrial machinery
- Aerospace components
- Defence equipment
- Smart infrastructure
- Conductive concrete systems
- Antistatic wall coatings
Typical Technical Properties
| Property | Typical Value |
| Resin Type | Single Component Polyurethane |
| Graphene Loading | 5 wt.% |
| Appearance | Black |
| Finish | Satin to Matte |
| Solids Content | 55–65% |
| Density | 1.10–1.25 g/cm³ |
| Dry Film Thickness | 40–100 µm per coat |
| Touch Dry | 20–40 minutes |
| Recoat Time | 2–4 hours |
| Full Cure | 5–7 days |
| Adhesion | Excellent (ASTM D3359, 5B achievable) |
| Pencil Hardness | Up to 3H |
| Operating Temperature | -30°C to 120°C |
| Shelf Life | 12 months |
| Property | Test Method | Typical Value |
| Surface Resistivity | ASTM D257 | 1 × 10⁴ Ω/sq |
| Volume Resistivity | ASTM D257 | 5 × 10² Ω·cm |
| Electrical Conductivity | Calculated | ≈200 S/m |
| Static Charge Dissipation | IEC 61340 | Pass |
| EMI Shielding Effectiveness* | ASTM D4935 | 20–35 dB (*depending on coating thickness) |
Application Methods
For an ARMI® premium graphene conductive coating, a surface resistivity of approximately 10⁴ Ω/sq is a strong commercial specification. It indicates excellent conductivity for antistatic and ESD applications while remaining technically credible for a 5 wt.% graphene-loaded polyurethane system.
Thinning: The coating is water-based and supplied ready for use. If necessary, dilute with up to 5% clean potable or deionized water to achieve the desired application viscosity. Do not exceed the recommended dilution level.
- Air spray
- Airless spray
- HVLP spray
- Brush
- Roller
- Dip coating
Surface preparation should ensure substrates are clean, dry, and free from oil, grease, rust, and contaminants for optimum adhesion.
Advantages of Graphene Reinforcement
The incorporation of 5 wt.% graphene delivers multifunctional performance beyond conventional conductive fillers:
- Higher conductivity at lower film thickness
- Improved coating durability
- Reduced microcrack propagation
- Enhanced barrier against water and oxygen
- Superior thermal stability
- Increased coating lifespan
- Lower maintenance requirements
- Lightweight conductive solution
Recommended Substrates
- Carbon steel
- Stainless steel
- Aluminium
- Galvanized steel
- FRP composites
- Engineering plastics (with suitable primer)
- Concrete
- Cement boards
- Industrial flooring
Safety
Use in well-ventilated areas. Wear suitable gloves, protective clothing, and eye protection during application. Refer to the Safety Data Sheet (SDS) before use.
ARMI® Performance Statement
ARMI® Graphene PU Conductive Coating combines advanced graphene nanotechnology with high-performance polyurethane chemistry to deliver a durable, electrically conductive protective coating. The optimized 5 wt.% graphene loading creates an efficient conductive network that enhances electrical performance while significantly improving mechanical strength, corrosion resistance, thermal stability, and long-term service life, making it an ideal solution for modern industrial, electronic, and infrastructure applications.
Price: ₹16,000/kg
Bulk orders and customized formulations are available.
















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