Solutions

Photovoltaic & Semiconductor Thermal Field Systems

— High Purity · High Stability · High Efficiency

Typical Applications:

Typical Applications:

Guide Tube, Carbon-Carbon Crucible, Insulation Tube – For Photovoltaic Applications

50% lower thermal expansion compared to conventional graphite, preventing thermal cracking

Ultra-pure with ash content <20 ppm, ensuring a contamination-free environment and higher N-type wafer yield

Reduced thermal inertia, lowering energy consumption by 18%

Service life up to 3× longer than traditional materials, reducing overall costs significantly

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Vacuum Metallurgy Thermal Systems

— Reliable at Extreme Temperatures

Typical Applications:

Typical Applications:

 Insulated Bucket Sets (including inner liners), Door Cover Sets, Integral Inner Liners, Carbon-Carbon Boats, Carbon-Carbon Rods

Outstanding performance above 2000℃

Long lifespan, reducing downtime and replacement frequency

Superior thermal conductivity, ensuring uniform temperature distribution

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Lithium Battery Sintering Equipment

— High Conductivity · Long Service Life · Energy Saving

Typical Applications:

Typical Applications:

 Carbon/carbon saggers, plates, crucibles

Extended sintering cycles, cutting replacement cost by 60%

Thermal conductivity >300 W/(m·K), reducing sintering time by 25%

Lower thermal inertia, saving up to 18% energy consumption

Ultra-smooth surface (Ra ≤0.8 μm), ensuring minimal material adhesion

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Mechanical & Wear-Resistant Components

— Reliable for Precision Engineering

Typical Applications

Typical Applications

Carbon/carbon gaskets, sealing rings

Boasts high strength, wear resistance, and thermal shock resistance, perfectly adapting to harsh working conditions with high friction and heavy loads

Widely applicable to various equipment, effectively ensuring long-term stable operation of the equipment

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New Energy Vehicle Braking Systems

— Lightweight · High Safety · Superior Performance

Typical Applications

Typical Applications

Carbon-ceramic brake pads / brake discs

60% lighter than traditional brakes, improving overall vehicle efficiency

Heat fade resistance up to 1450℃, enhancing durability by 123%

Shorter braking distance: <31 m from 100 km/h, 26% shorter than conventional brakes

Stable friction coefficient (0.39±0.02), eliminating brake noise for enhanced driving comfort

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