Woodward Fab WFBDT1X3 Tubing Die, 1" OD, 3" CLR, for WFB2 Bender
- The Woodward Fab WFBDT1X3 tubing die is a replacement die for the WFB2 Bender. It bends tubing with a 1 inch outside diameter to a 3 inch centerline radius, providing compact bends suitable for automotive fabrication, chassis building, and roll cage construction.
- Features:
- Compatible with 1 inch OD tubing, ensuring accurate bends for small-diameter projects.
- 3 inch centerline radius produces tight curves while minimizing deformation.
- Constructed from hardened steel for strength and long service life.
- Supports tubing wall thicknesses from approximately 0.065 inch to 0.120 inch, suitable for mild steel and DOM tubing.
- Capable of bending up to 120 degrees for a wide range of fabrication applications.
- Specifications:
- Manufacturer: Woodward Fab
- Part Number: WFBDT1X3
- Tube Outside Diameter: 1 inch
- Centerline Radius: 3 inches
- Wall Thickness Range: 0.065 inch to 0.120 inch
- Maximum Bend Angle: 120 degrees
- System Compatibility/Application: Designed specifically for the Woodward Fab WFB2 Bender, ideal for tight-radius tube bending in fabrication, roll cages, and automotive work
- The Woodward Fab WFBDT1X3 tubing die can also be referred to as a 1 inch OD die, 3 inch CLR die, WFB2 replacement die, or tight-radius tubing die for fabrication projects.
Woodward Fab manufactures precision-machined dies for professional tube bending. The WFBDT1X3 die provides accurate, repeatable bends with consistent results, ensuring durability and reliability in demanding workshop environments.
Q: What tubing wall thickness range does this die support?
A: It is suitable for tubing wall thicknesses from 0.065 inch to 0.120 inch, commonly used in mild steel and DOM tubing.
Q: What is the maximum bend angle achievable with this die?
A: The WFBDT1X3 die is capable of bending up to 120 degrees when used with the WFB2 Bender.
Q: Is this die appropriate for tight-radius bending?
A: Yes, the 3 inch centerline radius allows tight-radius bends on 1 inch OD tubing, making it ideal for compact fabrication designs.
