Grinding belts with ceramic grain are abrasives that meet the highest demands in terms of aggressiveness and the associated highest possible removal rate in the belt grinding process. The aggressive cutting effect of the ceramic grain and grinding additives in the coating make these tools ideal for machining high-alloy, rust- and acid-resistant steels (INOX), titanium, nickel-based alloys and extremely hard workpiece surfaces (e.g. mill scale).
When belt grinding, you can achieve the highest surface quality on workpieces using sanding belts with ceramic grain, while at the same time keeping the heat load very low. This results from the special structure of the sanding belts with ceramic grain, which use special sanding additives to achieve a particularly cool grind.
- Continuous peak performance
Continuous high-performance processes through optimal utilization of the sanding belt. A particular advantage is that the ceramic grain sharpens itself over and over again during belt grinding and thus retains its aggressiveness.
- Highest removal performance
The ceramic grain almost completely prevents the sanding belt from clogging. Additional grinding additives make a decisive contribution to the highest possible removal rate and a long service life of the sanding belt.
- Maximum cost minimization
Saving work steps and thus labor costs through faster processing of workpieces while improving the surface quality justify the use of sanding belts with ceramic grain.
- Cooler cut
On poorly heat-conducting materials, the sanding belt with ceramic grain guarantees optimal sanding results without thermal material damage to the workpiece.
Picard tip: Choosing the right contact disc
The use of sanding belts with ceramic grain should always be done in conjunction with the correct contact wheel. For dry grinding, we recommend our FAPI-KS/V FREQUENCY DAMPED contact wheel, which can achieve up to 40% more removal rate. For wet grinding, we recommend our FAPI-PA FREQUENCY DAMPED contact wheel, which can also be used to achieve an enormous increase in removal rate.