PFERD

 Surface Conditioning Discs

Surface Conditioning Discs

Surface Conditioning discs for removal of rough grinding traces, oxidation and for light deburring work.

PFERD ‘s COMBICLICK® system combines an innovative flexible backing pad with a quick, easy and rugged mounting system on the back of the disc. The backing pad allows COMBICLICK® discs to be used with standard angle grinders. The geometry of the cooling slots ensures a high throughput of air, thus significantly reducing thermal loads on the abrasive material and workpiece. The rugged mounting fixture, secure disc attachment to the backing pad plus optimized cooling help to provide:

  • up to 30% lower workpiece temperature
  • up to 25% increased stock removal
  • up to 30% longer service life and improved utilization of abrasive product and
  • up to 30% less tool wear.

The range of solutions has now been increased to include CC-GRIND Discs for rough grinding applications, and a complete range of non-woven and felt discs. The COMBICLICK® system now offers a single solution for rough grinding to mirror polishing.

COMBICLICK ® Surface Conditioning Discs are a superior alternative to conventional Hook and Loop discs. They are recommended for general work on metal surfaces - removal of rough grinding traces, removal of oxidation and for light deburring work. Ideal for removing heat discoloration on components made of stainless steel (INOX), and for fine-grinding of large components in process equipment and tank construction.
When used in conjunction with the innovative COMBICLICK® system, these discs will provide cooler grinding temperatures for extended disc life and superior performance. For best results, use recommended operating speeds.

EDP Diameter (Inches) Grade Recom. Speed RPM Max. RPM
48094 4 Coarse 3,800 12,200
48095 4 Medium 3,800 12,200
48097 4 Very Fine 3,800 12,200
48100 4-1/2 Coarse 3,300 10,500
48101 4-1/2 Medium 3,300 10,500
48103 4-1/2 Very Fine 3,300 10,500
48110 5 Coarse 3,100 9,650
48111 5 Medium 3,100 9,650
48113 5 Very Fine 3,100 9,650