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FU NIKE has made significant progress in the field of CBN tool technology by applying micro-nano improvement techniques to the material itself. Through a newly developed binding agent formula, combined with over 20 years of experience in high-temperature and high-pressure manufacturing processes, they have created a new generation of CBN tools that are highly wear-resistant, impact-resistant, efficient, and environmentally friendly. This innovation has significantly reduced the cost and price of CBN tools, breaking the traditional image of them being expensive and inaccessible to many users, making their value available to a broader audience.
Polycrystalline Cubic Boron Nitride (PCBN) is an advanced synthetic material that ranks second in hardness only to diamond. It is widely used for high-speed, high-efficiency, and high-precision cutting of iron-based metals and is considered one of the most promising tool materials in modern machining.
The FUJIKE FBN (integrated polycrystalline cutter) series offers exceptional performance, including excellent fracture resistance, outstanding wear resistance, superior chemical stability, higher cutting efficiency, and extended tool life. Additionally, it features indexable cubic boron nitride sintered bodies with multiple cutting edges, enhancing productivity and reducing downtime.
In practical applications, such as roll cutting, FUJN CBN tools have successfully broken the long-standing belief that CBN tools are unsuitable for heavy-duty cutting. Real-world usage shows that both the performance of the blade and the application technology are equally important in achieving optimal results.
In recent years, the focus on CBN tool applications has shifted toward their performance in difficult-to-machine materials. However, research has often been fragmented, with separate studies on machine tools, workpiece materials, and tool systems, leading to limited synergy. While there have been many advancements in various areas of machining and manufacturing, breakthroughs in cutting efficiency have remained elusive.
To address this, the application of heavy-load cutting requires a comprehensive approach—matching the mechanical, physical, and chemical properties of CBN cutting tools with the processing materials. This is a complex system engineering project that integrates CBN tool materials, application technologies, and the optimization of machine tools, workpieces, and cutting tools together.