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Industrial ceramic blades represent a new generation of cutting technology—engineered to deliver unmatched sharpness, durability, and stability across demanding production environments. Made from advanced zirconia or alumina ceramics, these blades retain their cutting edge up to 10–20 times longer than conventional steel blades.
Extreme Hardness
Ceramic materials rank close to diamonds on the Mohs scale, ensuring the edge remains razor-sharp even after continuous, high-friction use.
Unlike metal blades, ceramics resist micro-chipping and edge rounding caused by wear and oxidation.
Superior Wear Resistance
The dense microstructure of fine-grain ceramics provides excellent resistance to abrasion, making them ideal for high-speed, continuous cutting operations.
No rusting or pitting—perfect for clean-room, medical, and food-grade applications.
High-Temperature Stability
Ceramic blades maintain edge integrity at cutting temperatures exceeding 1000°C, outperforming metal blades that soften under thermal stress.
This enables dry cutting—faster operation without coolant contamination or lubrication costs.
Chemical Inertness
Ceramic is immune to corrosion, oxidation, and chemical reactions with materials like adhesives, films, or composites.
This ensures consistent performance, especially in battery, electronics, and fiber manufacturing.
Address:Unit 1403-1, No. 67, Xixi Shanwei Road, Phase III, Software Park, Xiamen Torch Hi-Tech Zone
WhatsApp:+8615805990201
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E-mail:youjjac@gmail.com