Freud Double Flute Straight Router Bits with 1/2" Shank
The Freud offer is a comprehensive range of carbide tipped router bits that match all your application needs.
Double flute straight bits are ideal for grooving, edge-routing and all other general-purpose routing tasks. The precise hook and shear angles provide fast cutting and create a smooth finish in hardwood, softwood, ply and composite materials. The tips are relieved to allow for efficient plunge cuts.
Designed for use in CNC, hand-held and table mounted routers.
- Freud Tico Hi-Density Carbide
- Clean cuts in solid wood, plywood and composites
- Use in CNC, hand-held and table-mounted routers
Freud Tools manufacture an extensive range of precise and high-tech Routing and CNC Tools. The industry leader for over 50 years Freud router bits are the result of outstanding technical expertise and advanced manufacturing processes.
Freud set themselves apart through their in-house Tungsten Carbide production. One of the only manufacturers worldwide to produce unique carbide formulations for each application. The ownership and control of the entire manufacturing process ensures outstanding quality standards and maximized performance.
The superior Perma-SHEILD thermal insulation coating prevents the adhesion of resins, reducing the downtime for cleaning. The tools spin smoothly therefore reducing stress on the motor extending the lifetime of your machine.
All Freud router bits are tested to the highest of standards utilising the latest technological methods. Computer balanced to prevent chattering and vibration. The balancing takes place on special computer-controlled equipment to determine the precise location where material needs to be removed.
Freud’s kickback reducing shoulder design contributes to a safer working environment restricting the tooth bite to 1.1mm reducing the effects of dangerous kick-backs from overfeeding.
Competence and flexibility; Freud turn great ideas into industrial solutions. Leveraging engineering know-how, high-tech machinery and flexible production cycles to anticipate the industry demands.