Explore our premium standard and custom powder formulation offerings optimized for diverse environmental ratings and aesthetic requirements.
Traditional barrier coatings often fail to provide long-term protection under harsh thermodynamic and mechanical environments. Modern global infrastructure, oceanic transport, offshore energy rigs, and the EV sector require materials that resist oxidation, manage high thermal fluxes, and provide structural reinforcement.
By integrating graphene—a two-dimensional monolayer carbon structure—we offer powder coatings with a highly robust micro-barrier system. The sheet-like configuration of graphene blocks the ingress pathways of corrosive agents like chloride ions, oxygen, and water. This "tortuous path" mechanism slows down degradation, extending the lifespan of metal substrates under C4 and C5 atmospheric conditions.
Extends diffusion paths for oxygen and water by over 300%.
Reduces chemical peeling and prevents cathodic delamination.
Analyzing the shift towards nanomaterial coatings within modern global manufacturing and engineering landscapes.
Traditional powders insulate heat, but graphene-engineered films enable thermal dissipation and static dissipation (ESD). This makes them suitable for EV batteries, electronics housings, and cleanrooms.
While graphene-doped powder coatings carry a slightly higher upfront material cost, they provide a much longer service life and allow for thinner coating profiles. This reduces total project costs and maintenance cycles.
Global environmental regulations, such as the EU RoHS directive and EPA rules, are phasing out traditional liquid coatings that release VOCs. Graphene powder coatings offer a solvent-free solution with a smaller carbon footprint.
Established in 2000, Tianjin SSEART New Materials Co., Ltd. (also operating under Tianjin Shengda New Materials Co., Ltd.) prioritizes scientific research and high-performance development.
In 2019, we partnered with the Particle Technology and Fluidization Research Center (PRTFC) at Tianjin University. Led by Professor Zhu Jingxu (Fellow of the Royal Society of Canada and the Canadian Academy of Engineering) and Professor Zhang Hui (Tianjin "Thousand Talents Program"), this collaboration drives the application of advanced powder coatings in industrial settings.
Through this partnership, we develop low-cure, highly uniform graphene coatings designed to enhance structural longevity.
Our coatings are designed to meet diverse functional and aesthetic specifications across key industrial sectors.
From microelectronics to heavy agricultural equipment, our graphene powder coatings are formulated for specific performance requirements.
SSEART is a key developer of the "Chinese bicycle coating standards." Our coatings protect bike frames and components against UV degradation, chip impacts, and corrosion.
Our formulations protect fitness machinery from sweat, cleaning detergents, and constant wear, maintaining a clean finish under daily use.
Developed for architectural profiles, aluminum extrusions, and structural building elements exposed to rain, wind, and industrial pollutants.
Protects heavy machinery against soils, chemicals, and mechanical abrasion, keeping components functional in harsh field conditions.
Formulated for automotive chassis parts, engine brackets, and under-hood components that require high resistance to heat, salt, and fuel.
Provides a smooth finish for metal furniture, offering durability against scratches, scuffs, and household cleaning chemicals.
Applied to refrigerators, washing machines, and HVAC panels to resist humidity, grease, and wear while maintaining color consistency.
Provides heat dissipation and electromagnetic shielding for high-end electronics, including laptops, tablets, and network infrastructure.
Provides dielectric insulation, fire retardancy, and thermal management for battery containment modules and outdoor power storage systems.
How SSEART matches your technical requirements to deliver high-performance powder coatings.
Matching RAL/Pantone systems and specifying surface gloss levels (matte, textured, gloss).
Adding graphene dispersion profiles and adjusting polymers for target salt spray requirements.
Inspecting pigments, resins, and graphene batches to ensure stability and compatibility.
Dual-screw melt extrusion, cool belt flaking, and air-classifying milling for uniform particle size.
Final quality assurance including curing, impact testing, and RoHS compliance screening.
We supply global projects with certifications that simplify local compliance procedures:
Our technical support team helps optimize application parameters, from adjusting electrostatic voltage to troubleshooting oven temperature profiles, ensuring reliable performance in your production line.









Our long-term R&D efforts focus on introducing functional nanomaterials into eco-friendly coating solutions.
In addition to high-barrier anti-corrosion properties, we are developing self-healing powder coatings containing micro-encapsulated active agents. If a coating is scratched, these agents activate to seal the metal substrate, preventing rust under paint chips.
At the same time, we are focusing on low-bake energy-efficient curing technologies. These systems cure at 130°C–150°C instead of the standard 180°C–200°C, lowering gas consumption and carbon emissions for manufacturing lines.
We work with international logistics and supply chains to provide prompt, reliable delivery of high-volume orders.










Technical answers to common questions about graphene powder coatings and custom formulations.
From high-gloss clear finishes to matte textured coatings, find the right specifications for your project.