COMBIDISC POLICLEAN Abrasive Discs - CDR Type

COMBIDISC POLICLEAN Abrasive Discs - CDR Type

POLINOX Mounted Finishing Wheels Silicon Carbide - 6mm Shank - Surface Conditioning SiC

POLINOX Mounted Finishing Wheels Silicon Carbide - 6mm Shank - Surface Conditioning SiC

POLINOX Mounted Finishing Wheels Aluminium Oxide - 6mm Shank - Surface Conditioning PNL


USD 0.00
SKU
20450

0.00 kg

POLINOX Mounted Finishing Wheels Aluminium Oxide - 6mm Shank - Surface Conditioning PNL

Choose the size and grit to suit your application.

The non-woven abrasive flaps are arranged radially. A long tool life is achieved through the dense packing of the flaps. These tools are particularly used for surface work.
Abrasive:
A = Aluminium oxide

POLINOX?mounted and unmounted grinding wheels are made out of non-woven nylon in which abrasive grit is embedded. The flexible open-cell structure of the non-woven material makes the tools very elastic and ensures cool grinding.

Due to the high flexibility of the non-woven material, the tool will not alter the surface geometry of the workpiece in any way. Different surface textures and roughness levels can be obtained by selecting from a range of grit sizes and tool designs.

Advantages:
- Cool grinding and low thermal load on the workpiece
- No clogging of the tool

Application examples:
- Producing matt and satin finishes on metals
- Cleaning of oxidized non-ferrous metals
- Seamless brush finishing of stainless steel (INOX)
- Surface roughening of plastics in preparation for adhesive bonding
- Surface adaptation of weld seams

Recommendations for use:
- POLINOX?mounted and unmounted grinding wheels achieve their best performance at a recommended cutting speed of 10-20 m/s. This provides an ideal compromise between stock removal, surface quality, thermal load on the workpiece and tool wear.
- Flexible shaft drives, electric and airpowered straight grinders can be used as tool drives.

Safety notes:
- The maximum permitted peripheral speed is 32 m/s
- For safety reasons, it is imperative to remain within the stated maximum permitted rotational speed at all times