Graphite Rotors & Vanes: Enabling Energy-Efficient Cooling in EV Motors
Graphite Rotors & Vanes enhance EV motor cooling with superior thermal conductivity, lightweight design, and durability, boosting energy efficiency and performance.
2025-04-15
Graphite Rotors & Vanes enhance EV motor cooling with superior thermal conductivity, lightweight design, and durability, boosting energy efficiency and performance.
Automotive OEMs adopt graphite electrodes for lithium-ion batteries due to their superior conductivity, stability, and role in enhancing EV performance.
TaC Coating enhances aerospace turbines and heat shields with superior heat resistance, durability, and efficiency, ensuring safety and performance in extreme conditions.
TaC Coating offers unmatched thermal resistance, durability, and chemical stability, protecting aerospace components from extreme heat and wear in harsh environments.
Follow these 5 steps to install graphite rotors in compressor systems, ensuring proper alignment, secure fastening, and optimal performance without damage.
Automotive OEMs prefer CVD-coated turbocharger components for their superior heat resistance, durability, and efficiency, ensuring better performance and longevity.
SiC Coating enhances EV brake systems by improving thermal stability, heat dissipation, and wear resistance, ensuring safety and efficiency under extreme conditions.
CVD Coating enhances EV charging port durability by preventing corrosion and wear. Its advanced technology ensures long-lasting performance and reduced maintenance.
TaC Coating boosts EV battery durability with thermal resistance, wear protection, and corrosion resistance, ensuring reliability in high-temperature conditions.
With R & D capabilities from key materials to end application products, the core and key technologies of independent intellectual property rights have achieved a number of scientific and technological innovations.
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