| Patented tooth design utilizes sharper tooth geometry for faster cut rates; Aggressive shank angle increases tooth contact, maintaining cutting speed as blade wears for longer blade life; Specially formulated anti-stick coating minimizes friction and gum-up for smoother cuts |
| Patented tooth design utilizes sharper tooth geometry for faster cut rates |
| Aggressive shank angle increases tooth contact, maintaining cutting speed as blade wears for longer blade life |
| Specially formulated anti-stick coating minimizes friction and gum up for smoother cuts |
| Reinforced tooth for increased durability when cutting through nails and other foreign objects |
| Raker tooth design increases the tooth contact area for faster cuts |
| Bi-metal blades feature a toothed edge made from high speed steel (HSS) attached to a flexible steel backing through an electron beam welding process |
| This configuration results in a blade that makes precise cuts while resisting breakage |
| The cutting surface of a toothed edge is composed of a row of pointed teeth |
| Common tooth variations include the number of teeth per inch and pitch pattern |
| 6 deg hook angle for fast, aggressive cuts |
| Variable pitch pattern |
