What distinguishes diamond grinding wheels from standard grinding wheels

How is a diamond grinding wheel dressed?

The ordinary abrasive grinding wheel and the diamond grinding wheel are aligned during the dressing process, and the diamond grinding wheel rotates while the ordinary abrasive grinding wheel performs feed movement. As a result of friction, the grinding particles on the diamond grinding wheel's surface start to rotate slowly. This causes an extrusion pressure to build up on the rotating metal adhesive, which causes cracks in the adhesive. The expansion of cracks in the adhesive is caused by the ongoing friction action. When the adhesive finally fails, the grinding wheel's surface is left with only the sharp diamond particles, leaving the blunt ones exposed for repair.

What kind of material can be used to grind a synthetic diamond wheel?

High-hardness inorganic materials can be ground with a synthetic diamond grinding wheel. High-hardness metal materials and cementitious carbide materials Glass, ceramic, ferrite, semiconductor, and other hard, brittle, and metal materials, as well as carbide materials, can all be ground on a diamond grinding wheel. Using a synthetic diamond grinding wheel, high-hardness carbide is ground. The ideal tool for brittle non-metallic materials when grinding.

What kind of material can be used to grind a synthetic diamond wheel?

The term "diamond grinding wheel" (also known as "alloy grinding wheel") refers to a circular through-hole consolidation abrasive made from electroplated metal and diamond abrasive as the raw material.

The superhard grinding wheel includes the diamond wheel. The diamond grinding wheel has very clear advantages over regular grinding wheels, including the following:

1. The primary properties of a diamond grinding wheel are determined by the diamond abrasive hardness: it can efficiently grind hard alloys, glass, ceramics, and other challenging materials, and grinding tools have the longest service lives.

2. Due to the diamond's higher wear resistance, grinding wheels can be used for longer periods. Diamond grinding particles' size, shape, and shape don't change much during the grinding process, making them better suited for high-precision machining and high production efficiency. A tool known as a diamond wheel can simultaneously meet the needs of efficient and precise machining.

3. The repaired diamond grinding wheel can preserve the micro-blades of particles for an extended period, and the effective cutting performance ensures that there is little force applied to the workpiece during grinding. This lowers the power required for grinding and saves energy.

4. Because of its excellent thermal conductivity, diamond helps to dissipate heat, prevents workpiece burns, cracking, and falling off, and greatly enhances the quality of surface processing.