I agree that tip speed could be a bit over-rated, nice with a finish mower's sharp blades on soft grass, but some of us will distinguish between a field and a lawn. Hogging brush relies quite a bit on flywheel effect of rotating blade mass, where sharper blades would indeed nick/gouge more easily. (How neatly must we manicure what we're cutting from stem to leaf?)
Forward speed, like pass width, determines how much uncut material goes under the blade tip per revolution. We adjust 'feeds & speeds' when machining metal to get the best match-up. Cutting is cutting, and cutting wider with less HP is but a matter of what gear/speed we choose to compensate for the width cut or tool diameter, to draw a ~ parallel. No absolutes here, just getting a feel for what works best. If you bog down, then gear down. Not rocket science, and no calculator or spreadsheet needed.![]()
Just looked through the specs of the Bush Hog line of single spindle rotary cutters. Didn't see any correlation with increasing blade tip speed and cutting ability. In fact, appears inversely proportional:
SQ 172, 2 inch capacity, 14,963 fpm
Model 286, 2.5 inch capacity, 14,877 fpm
Model 296, 3 inch capacity, 15,268 fpm
Model 326, 3.5 inch capacity, 13,966 fpm
Model 406, 4 inch capacity, 10,179 fpm
Except for the model 296, blade tip speed generally decreases for this line of cutters as they go from light duty to super heavy duty... What does go up, though , is the mass of the cutting blade.
The more mass there is, the lower the speed needs to be..
Brown Tree Cutters turn at 15267fpm. Ya don't get much more mass than that! LoL