The ED-N3.R2.30 universal strawberry of Eddenta is a precision tool designed specifically for CFAO systems, offering exceptional performance in the machining of various dental materials. Its compatibility with VHF equipment makes it a privileged choice for dentistry professionals wishing to optimize their digital manufacturing process.

Technical characteristics

• Manufacturing material : designed from high quality steel, the ED-N3.R2.30 strawberry guarantees increased durability and wear resistance, thus allowing prolonged use without compromising performance.
• Optimized geometry : The design of the strawberry promotes a precise and effective cut, reducing vibrations and improving the quality of finish of machined parts.
• Dimensions : With a diameter of 2.30 mm, this strawberry is ideal for various applications, ranging from the preparation of crowns to the manufacture of complex prostheses.

Advantages

• Precision and reliability : thanks to its advanced design, the ED-N3.R2.30 strawberry ensures optimal dimensional precision, essential for dental work where each millimeter counts.
• Extended compatibility : its compatibility with VHF systems allows easy integration in existing workflows, thus facilitating the transition to digital machining solutions.
• Operational efficiency : The use of this strawberry makes it possible to reduce production cycle time, thus increasing productivity while maintaining high quality standards.

Applications

The ED-N3.R2.30 universal strawberry is particularly suitable for the machining of materials such as ceramics, composite and metal, making it a versatile tool for dental laboratories. Whether for the manufacture of crowns, bridges or other prosthetic devices, this tool meets the strictest requirements in the sector.

Conclusion

By choosing the ED-N3.R2.30 universal strawberry from EDENTA, dentistry professionals benefit from a high performance tool that combines precision, sustainability and compatibility. This investment in superior equipment is essential to guarantee optimal results in the context of CFAO machining.