In the operation of high-pressure rollers in fields such as mining and cement, the studs directly determine production efficiency and operation and maintenance costs.
The traditional tungsten carbide studs, which have long dominated the market, excel in wear resistance, bending resistance, and toughness. However, they are prone to fracture and detachment under high-load and strong impact conditions. Coupled with the rising prices of tungsten and cobalt raw materials, procurement costs continue to climb.
Relying on years of research and development experience in cemented carbides, our company has launched a new titanium carbide material stud, breaking the monopoly of traditional materials and providing a cost-effective new solution for high wear scenarios.
This new product matches high-end tungsten carbide studs in terms of hardness, wear resistance, and compressive strength, making it suitable for high-frequency crushing operations on various hard rock ores. After optimizing the internal structure, its impact resistance has been significantly improved, and the probability of fracture and falling during actual operation is much lower than that of traditional tungsten carbide studs, significantly extending the continuous operation cycle of the roller press.
Meanwhile, its purchasing price is 40% lower than that of tungsten carbide studs of the same specification, resulting in a lower one-time investment and outstanding advantages in cost reduction and efficiency improvement throughout the entire cycle. It is redefining the selection criteria for wear-resistant components of roller presses.

Titanium carbide new material
High-performance new material
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Spherical titanium carbide has