The principal parameters of a grinding wheel are its abrasive material, grain size, grade, structure, and bond type, which define its cutting performance.
The maximum operating speed of a grinding wheel is the fastest, safest speed set by the manufacturer, marked in RPM on the wheel’s label. Exceeding this limit can cause a catastrophic explosion.
The lifespan of a metal bond grinding wheel is affected by abrasive choice (diamond vs. CBN), bond hardness, and operational factors like speed, feed rate, and coolant use.
Optimize your metal bond grinding wheel by selecting the right abrasive, setting precise speeds and feeds, and performing regular truing, dressing, and cleaning.
A metal bond grinding wheel is ideal for hard materials due to its superior bond strength, wear resistance, and high thermal conductivity, ensuring precision.
An electroplated grinding wheel’s durability comes from a strong nickel bond securing a single layer of superabrasives, ensuring high wear resistance and long life.
Aerospace, automotive, medical, and electronics industries rely most on the electroplated grinding wheel for its precision in shaping hard materials like superalloys.
Extend the life of your silicon carbide grinding wheel with proper maintenance. Use our tips for inspection, dressing, and storage to improve safety and performance.
A silicon carbide grinding wheel is ideal for hard, brittle materials like cast iron, ceramics, and glass, plus soft non-ferrous metals like aluminum and brass.
An electroplated grinding wheel delivers ultimate precision with a single abrasive layer for aggressive, cool cutting and superior finishes without in-process dressing.
No account yet?
Create an Account
