Tungaloy-NTK PCD Grade Optimizes Dimensional Accuracy
The DX200 is an effective tool for machining application-specific components that demand high levels of material purity, such as metal medical implants and sputtering targets for semiconductor applications.
Tungaloy-NTK America Inc. has unveiled its latest development of a polycrystalline diamond (PCD) grade that is designed to provide exceptional wear resistance in hard, non-ferrous metals. DX200 is made of 100% pure diamond using no binder to make the bond between the diamond grains.
Boasting the highest hardness of all Tungaloy’s PCD-grade lines, DX200 is best suited for finish machining of carbide and hard, brittle materials, primarily tungsten carbide, cemented carbide and metal matrix composites (MMCs). In addition, the PCD cutting edge features an excellent edge-line security and sharpness, permitting the insert to achieve optimized dimensional accuracy over extended periods of time.
Unlike traditional PCD grades that use a metallic binder such as cobalt to make the grains bond to one another, DX200 directly binds the diamond particles without using binder materials. This enables the grade to have an extremely pure cutting edge, making it an effective tool for machining application-specific components that demand high levels of material purity, such as metal medical implants and sputtering targets for semiconductor applications.
DX200 grade is available in seven inserts of CCGW and DCGW shapes with 0.2- and 0.4-mm nose radii.
Related Content
-
Five-Axis Turnkey Machine Halves Medical Shop’s Cycle Times
Horizontal five-axis machines cut cycle times in half at ARCH Medical Solutions – Newtown. But its leadership gives equal credit to a surprising factor: the OEM’s service department.
-
YCM Alliance Hits IMTS
YCM Technology has joined with other like-minded machine tool manufacturers to take a solutions-based approach to manufacturing.
-
4 Ways 3D Printing Is Changing Medical Implants
Additive manufacturing provides new ways of making medical implants, but its impact is greater than this. How 3D printing is changing medical manufacturing and improving patient outcomes.
