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Diamond pellet wheel for surface grinding of hard brittle materials

Diamond pellet wheel for surface grinding of hard brittle materials

This wheel takes full advantage of aligned pellets for large-area surface grinding of materials such as quartz and ceramics in situations where flatness and cutting performance are required. Various pellet shapes and bonds are available to meet material features and wheel usage requirements.

Diamond wheel for surface grinding of hard brittle materials

Diamond wheel for surface grinding of hard brittle materials

This wheel is designed for surface grinding of electronic or semiconductor materials such as ceramics, quartz, and sapphires. The ""G2(G square)"" porous vitrified bond ensures high cutting performance and efficient, precision grinding can be achieved
if the wheel is combined with special segment shapes.

Diamond wheel for chamfering glass substrates

Diamond wheel for chamfering glass substrates

This chamfering wheel is designed to maintain substrate strength when fabricating glass display panels. Wheels for facilitating high-speed substrate feeding are available for various machines.

Diamond wheels for mirror finishing of difficult-to-cut materials

Diamond wheels for mirror finishing of difficult-to-cut materials

"BL" porous resin bond wheels are designed for mirror grinding of carbide alloy molds, ceramics, silicon wafers, and hardening steel alloys. With the effect of pores and a heat-resistant bond strengthened by special filler, these wheels produce high quality finished surfaces while maintaining their cutting performance.

Diamond wheel for forming hard brittle materials

Diamond wheel for forming hard brittle materials

The "MF50" metal bond wheel is used for fine ceramics forming, glass substrate chamfering, and the forming of other hard brittle materials. Its advantages include high cutting performance and low grinding noise.

“DEX” diamond wheels for chamfering glass disks

“DEX” diamond wheels for chamfering glass disks

These wheels are used to chamfer the inner diameter (ID) or outer diameter (OD) edge of glass disks. Due to the special electroplating used in this design, the roughness of chamfered surfaces are improved and chipping at the boundary area to the edge surface is minimized. Wheels using micron size abrasive grain are available.

“DEX” diamond wheel for optical lens centering

“DEX” diamond wheel for optical lens centering

This wheel is used for axis alignment (optical lens centering) of aspherical lenses or steppers used in high-grade cameras or endoscopes, which usually require high-precision grinding. When used, pre-conditioning grinding is not necessary and lens manufacturing with less damage on the lens edge starts from the beginning of processing work. The wheel can also suppress lens coloring, even when a steep rise shape is used.

“DEX” diamond wheels for forming difficult-to-cut materials

“DEX” diamond wheels for forming difficult-to-cut materials

These wheels are designed for high shape precision forming of, for example, motor cores. Wheels of the most appropriate specifications are available for not only magnetic materials such as neodymium-iron, but also for ferrites, ceramics and glass.

“Lenelas” diamond high-elasticity wheel for finishing

“Lenelas” diamond high-elasticity wheel for finishing

This wheel has high abrasion resistance because it uses a high-elasticity resin bond made with a special bonding agent. It realizes surface roughness of the same level as final lapping or polishing in a short period of time. By varying the bond content, it can be used to process different materials such as glass, metal, and ceramics. There are two types of bonds available: "RN" bond for better grinding performance and "RP" bond for better surface roughness.

Diamond multi-layer wheels

Diamond multi-layer wheels

A single wheel of this type can perform multiple grinding processes such as rough grinding, pre-finishing, and finishing. This allows multiple processes to be performed with a single machine without replacing tools, which reduces processing time. Multi-layer wheels with a combination of metal bonds for rough grinding, resin bonds for pre-finishing, and resin bonds for finishing are available.