We offer a wide range of FEPA standard shape diamond grinding wheels, CBN grinding wheels. Our diamond wheels and CBN wheels can be made by resin bonded, vitrified bonded, metal bonded and electroplated bonds.
Diamond grinding wheels for carbide grinding
Diamond and CBN wheels grit size from D/B46(mesh size 325/400) to D/B426.
Diamond and CBN wheel concentration includes 75%, 100%, 125%, 150%, 175%, 200%.
Diamond or CBN concentration can be 50%, 75%, 100%, 125% and 150%
Other grit size and concentrations are available upon request.
Diamond wheels can be used to grind various materials including tungsten carbide, glass, ceramics, fibreglass, plastics, stone and abrasives. CBN wheels are used to grind high speed steels, tool & die steels, alloy steels, Aerospace alloys and hard stainless steels.
Resin Bond wheels are the most commonly used. They have good elasticity, can produce fine surface finishes and give high grinding performance. Many types of resin-bonded diamond wheels are specially made for a specific application. These are particularly suited for the grinding of carbide tipped and inserted tooling such as Saws, Cutters, Reamers and End-mills. They are utilized in precision grinding operations on carbide dies, rolls and carbide wear parts. Resin bonds are the best choice for precision finishing of ceramics as well as grinding tungsten carbide and ceramic thermal spray coatings.
When combined with CBN, resin bonds can be used for grinding high-speed steels, tool and die steels and super alloys with a hardness greater than HRC 50.
Zhengzhou Hongtuo Superabrasive Products Co., Ltd., established in 1997, is an ISO 9001:2008 certified company engaged in the R&D, production, sale and service of diamonds & CBN honing stones and grinding wheels. We have more than 350 employees, over 300 sets of manufacturing facilities and 4 advanced production lines for metal bond super-abrasive honing stones, diamonds and CBN grinding wheels and ultra thin cutting wheels, with an annual production capability of 1 million pieces of metal bond ... View detail